Physics of Ionic Conduction in Narrow Biological and Artificial Channels
English[eng]
9783040000000
reversal potential||effects of diffusion coefficients||permanent charge||bioelectricity||electrochemistry||thermodynamics||electrokinetics||molecular mean-field theory||Boltzmann and Fermi distributions||Poisson–Boltzmann||Poisson–Fermi||Poisson–Bikerman||Nernst–Planck||steric and correlation effects||ion channels||ion activity||double-layer capacitance||nanofluidics||steric effect||Poisson-Boltzmann model||Bikerman model||entropy||specific ion size||electric double layer||orientational ordering of water dipoles||Helmholtz free energy||modified Langevin Poisson-Boltzmann model||nanopores||reduced models||Monte Carlo||classical density functional theory||Poisson-Nernst-Planck||ion transport||nanopore||graphene||crown ether||ion channel||selectivity||permeability||patch-clamp||computer simulations||ionic Coulomb blockade||2D materials||nanotubes||angstrom slits||protein dynamics||molecular dynamics||non-Hermitian Hamiltonians||algebraic topology||semiclassical methods||statistical mechanics||polarization||maxwell equations||gating current||dielectric constant||statistical theory||linear response||ionic transport||NaChBac||computational electrophysiology||electrodiffusion model||stochastic simulations||current–voltage dependence||committor probabilities||n/a