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2020    
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Prabhat Tripathi, Liang Shuai, Himanshu Joshi, Hirohito Yamazaki, William H. Fowle, Aleksei Aksimentiev, Hicham Fenniri, and Meni Wanunu. "Rosette Nanotube Porins as Ion Selective Transporters and Single-Molecule Sensors." Journal of the American Chemical Society 142:1680-1685 (2020). PDF icon si.pdf (2.47 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020). PDF icon song2019_si.pdf (15.29 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)
Christopher Maffeo, and Aleksei Aksimentiev. "MrDNA: a multi-resolution model for predicting the structure and dynamics of DNA systems." Nucleic Acids Research (2020). PDF icon supplement.pdf (3.94 MB)

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