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Ion and Molecule Transport in Membrane Systems



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Autore: Nikonenko Victor V Visualizza persona
Titolo: Ion and Molecule Transport in Membrane Systems Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 online resource (368 p.)
Soggetto topico: Technology: general issues
Soggetto non controllato: 3D printing
acetic acids
acid whey
air-pollutant nanoparticle
alkaline fuel cells
anion-exchange membrane
anomalous water diffusion
bioactive peptides
bioassay-guided validation
biomimetic membrane
biopolymer electrolyte membranes
CFD
cholesterol
coarse-grained model
computer simulations
concentration difference
concentration polarisation
corrugated membranes
crosslinking
current-voltage curves
demineralization
dielectric properties
EDLC fabrication
electric modulus study
electro-convective instability
electrodialysis
electrodialysis with filtration membrane (EDFM)
electrokinetics
electrolyte composition
fluid-structure interaction
fouling
FTIR study
Fujifilm
glucose uptake
heterogeneity
hexanoic acids
hydrodynamic
hydrophilicity
hydroxide exchange membrane
hyperbranched polymer
impedance study
Impedance study
inner nuclear membrane
interaction
ion channel gating
ion exchange membrane
ion exchange membranes
ion pair amphiphile
ion transport parameters
ion-exchange membrane
ion-exchange membranes
ion-exchange particles
ionic channel
ionic conductivity
ionic liquid
ionic liquids
lactic acid removal
LaPO4: Ce
limiting current density
loss tangent peaks
mass transfer
membrane capacitive deionization
molecular dynamics
molecular dynamics simulation
Morphology
n/a
nano-size water pore
Neosepta
NETs
nuclear envelope
O2 plasma
outer nuclear membrane
overlimiting current
particle tracking
phosphate transport
photoluminescence
physico-chemical properties of confined water
polymer blends
polymer inclusion membrane
polyphenylene oxide
PP membrane
pressure drop
profiled membrane
profiled membranes
protein-water interactions
pulmonary surfactant monolayer
pulsed electric field
pulsed electrodialysis reversal
reverse electrodialysis
salinity gradient power
scaling
separator
structural mechanics
supported liquid membrane
Tb
thermal pressing
TiO2 nanoparticles
triple size-selective separation
TRPV1 channel permeability for water
Trukhan model
UV treatment
volatile fatty acids (VFAs)
voltammetry
water dynamics
water H-bonding
water permeation
water swelling
whey
XRD analysis
zinc-air battery
Persona (resp. second.): NikonenkoVictor V
Sommario/riassunto: Membranes play an enormous role in our life. Biological cell membranes control the fluxes of substances in and out of cells. Artificial membranes are widely used in numerous applications including "green" separation processes in chemistry, agroindustry, biology, medicine; they are used as well in energy generation from renewable sources. They largely mimic the structure and functions of biological membranes. The similarity in the structure leads to the similarity in the properties and the approaches to study the laws governing the behavior of both biological and artificial membranes. In this book, some physico-chemical and chemico-physical aspects of the structure and behavior of biological and artificial membranes are investigated.
Titolo autorizzato: Ion and Molecule Transport in Membrane Systems  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557579903321
Lo trovi qui: Univ. Federico II
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