000			04684naaaa2201117uu 4500
001			https://directory.doabooks.org/handle/20.500.12854/76887
005			20220220043213.0
020			_abooks978-3-0365-1645-5
020			_a9783036516462
020			_a9783036516455
024	7		_a10.3390/books978-3-0365-1645-5 _cdoi
041	0		_aEnglish
042			_adc
072		7	_aGP _2bicssc
072		7	_aTB _2bicssc
100	1		_aMcClintock, Peter V E _4edt
700	1		_aLuchinsky, Dmitry G. _4edt
700	1		_aMcClintock, Peter V E _4oth
700	1		_aLuchinsky, Dmitry G. _4oth
245	1	0	_aPhysics of Ionic Conduction in Narrow Biological and Artificial Channels
260			_aBasel, Switzerland _bMDPI - Multidisciplinary Digital Publishing Institute _c2021
300			_a1 electronic resource (306 p.)
506	0		_aOpen Access _2star _fUnrestricted online access
520			_aThe book reprints a set of important scientific papers applying physics and mathematics to address the problem of selective ionic conduction in narrow water-filled channels and pores. It is a long-standing problem, and an extremely important one. Life in all its forms depends on ion channels and, furthermore, the technological applications of artificial ion channels are already widespread and growing rapidly. They include desalination, DNA sequencing, energy harvesting, molecular sensors, fuel cells, batteries, personalised medicine, and drug design. Further applications are to be anticipated.The book will be helpful to researchers and technologists already working in the area, or planning to enter it. It gives detailed descriptions of a diversity of modern approaches, and shows how they can be particularly effective and mutually reinforcing when used together. It not only provides a snapshot of current cutting-edge scientific activity in the area, but also offers indications of how the subject is likely to evolve in the future.
540			_aCreative Commons _fhttps://creativecommons.org/licenses/by/4.0/ _2cc _4https://creativecommons.org/licenses/by/4.0/
546			_aEnglish
650		7	_aResearch & information: general _2bicssc
650		7	_aTechnology: general issues _2bicssc
653			_areversal potential
653			_aeffects of diffusion coefficients
653			_apermanent charge
653			_abioelectricity
653			_aelectrochemistry
653			_athermodynamics
653			_aelectrokinetics
653			_amolecular mean-field theory
653			_aBoltzmann and Fermi distributions
653			_aPoisson–Boltzmann
653			_aPoisson–Fermi
653			_aPoisson–Bikerman
653			_aNernst–Planck
653			_asteric and correlation effects
653			_aion channels
653			_aion activity
653			_adouble-layer capacitance
653			_ananofluidics
653			_asteric effect
653			_aPoisson-Boltzmann model
653			_aBikerman model
653			_aentropy
653			_aspecific ion size
653			_aelectric double layer
653			_aorientational ordering of water dipoles
653			_aHelmholtz free energy
653			_amodified Langevin Poisson-Boltzmann model
653			_ananopores
653			_areduced models
653			_aMonte Carlo
653			_aclassical density functional theory
653			_aPoisson-Nernst-Planck
653			_aion transport
653			_ananopore
653			_agraphene
653			_acrown ether
653			_aion channel
653			_aselectivity
653			_apermeability
653			_apatch-clamp
653			_acomputer simulations
653			_aionic Coulomb blockade
653			_a2D materials
653			_ananotubes
653			_aangstrom slits
653			_aprotein dynamics
653			_amolecular dynamics
653			_anon-Hermitian Hamiltonians
653			_aalgebraic topology
653			_asemiclassical methods
653			_astatistical mechanics
653			_apolarization
653			_amaxwell equations
653			_agating current
653			_adielectric constant
653			_astatistical theory
653			_alinear response
653			_aionic transport
653			_aNaChBac
653			_acomputational electrophysiology
653			_aelectrodiffusion model
653			_astochastic simulations
653			_acurrent–voltage dependence
653			_acommittor probabilities
653			_an/a
856	4	0	_awww.oapen.org _uhttps://mdpi.com/books/pdfview/book/4357 _70 _zDOAB: download the publication
856	4	0	_awww.oapen.org _uhttps://directory.doabooks.org/handle/20.500.12854/76887 _70 _zDOAB: description of the publication
999			_c65267 _d65267