Publications
"Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). 
supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
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supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
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supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
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supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
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supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular Dynamics Simulation of DNA Capture and Transport in Heated Nanopores." ACS Applied Materials and Interfaces 8:12599-12608 (2016). supporting.pdf (461.04 KB)
supporting.pdf (461.04 KB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Molecular mechanics of DNA bricks: in situ structure, mechanical properties and ionic conductivity." New Journal of Physics 18:055012 (2016). supporting_information.pdf (7.84 MB)
supporting_information.pdf (7.84 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Graphene Nanopores for Protein Sequencing." Advanced Functional Materials 26:4830-4838 (2016).
"Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB) "Ion Channels Made from a Single Membrane-Spanning DNA Duplex." Nano Letters 16:4665-4669 (2016). supporting_information.pdf (1.32 MB)
supporting_information.pdf (1.32 MB)