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2020    
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Diana Sobota, Himanshu Joshi, Alexander Ohmann, Aleksei Aksimentiev, and Ulrich F. Keyser. "Tailoring interleaflet lipid transfer with a DNA-based synthetic enzyme." Nano Letters 20:4306-4311 (2020). PDF icon si.pdf (2.57 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Manish Shankla, and Aleksei Aksimentiev. "Molecular Transport across the Ionic Liquid−Aqueous Electrolyte Interface in a MoS2 Nanopore." ACS Appl. Mater. Interfaces 12:26624-26634 (2020). PDF icon supportinginformation_final.pdf (4.48 MB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Han-Yi Chou, and Aleksei Aksimentiev. "Single-Protein Collapse Determines Phase Equilibria of a Biological Condensate." J. Phys. Chem. Lett. 11:4923-4929 (2020). PDF icon supporting_information.pdf (481.68 KB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Hadjer Ouldali, Kumar Sarthak, Tobias Ensslen, Fabien Piguet, Philippe Manivet, Juan Pelta, Jan C. Behrends, Aleksei Aksimentiev, and Abdelghani Oukhaled. "Electrical recognition of the twenty proteinogenic amino acids using an aerolysin nanopore." Nature Biotechnology 38:176-181 (2020). PDF icon Supplementary Information (15.98 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
Arundhati Roy, Himanshu Joshi, Ruijuan Ye, Jie Shen, Feng Chen, Aleksei Aksimentiev, and Huaqiang Zeng. "Polyhydrazide-based organic nanotubes as extremely efficient and highly selective artificial iodide channels." Angewandte Chemie International Edition 12:4806-4813 (2020). PDF icon si-final.pdf (3.1 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)
David Winogradoff, Shalini John, and Aleksei Aksimentiev. "Protein unfolding by SDS: the microscopic mechanisms and the properties of the SDS-protein assembly." Nanoscale 12:5422-5434 (2020). PDF icon supplement.pdf (6.71 MB)

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