Publications
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). 
Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"Selective Permeability of Truncated Aquaporin 1 in Silico." ACS Biomaterials Science & Engineering 3:342-348 (2017). Supporting Information (pdf) (459.46 KB)
Supporting Information (pdf) (459.46 KB) "Modulation of Molecular Flux Using a Graphene Nanopore Capacitor." The Journal of Physical Chemistry B 121:3724-3733 (2017).
"SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "Nanopore Sensing of Protein Folding." ACS Nano 11, 7091-7100 (2017). nn7b02718_si_001.pdf (12.07 MB)
nn7b02718_si_001.pdf (12.07 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB) "SDS-assisted protein transport through solid-state nanopores." Nanoscale 9:11685-11693 (2017). Supporting Information (1.24 MB)
Supporting Information (1.24 MB)