SCOPUS 정보 검색 플랫폼

Volumn 4, Issue 6, 2011, Pages 2259-2266

Towards understanding the nanofluidic reverse electrodialysis system: Well matched charge selectivity and ionic composition

(9) Cao, Liuxuan a Guo, Wei b Ma, Wen a Wang, Lin a Xia, Fan b Wang, Shutao b Wang, Yugang a Jiang, Lei b,c Zhu, Daoben b

a PEKING UNIVERSITY (China)

b INSTITUTE OF CHEMISTRY (China)

c BEIHANG UNIVERSITY (China)

Author keywords

[No Author keywords available]

Indexed keywords

AMBIENT ENVIRONMENT; BIO-INSPIRED; CHARGE SEPARATIONS; DOMINANT FACTOR; ELECTRIC POWER; ELECTRICAL DEVICES; ELECTRODIALYSIS SYSTEMS; ELECTROLYTE SOLUTIONS; ENERGY HARVESTING SYSTEMS; FLUIDIC RESISTANCES; ION SELECTIVITY; IONIC COMPOSITION; IONIC FLUXES; NANO CHANNELS; NANOFLUIDIC CHANNEL; ORDERS OF MAGNITUDE; SALINITY GRADIENTS; THEORETICAL APPROACH; WORKING MECHANISMS;

CONVERSION EFFICIENCY; DIALYSIS MEMBRANES; ELECTRIC POWER SYSTEMS; ELECTRICITY; ELECTRODIALYSIS; ELECTROLYTES; ENERGY HARVESTING; MEMS; MICROELECTROMECHANICAL DEVICES; NANOPORES; OPEN CIRCUIT VOLTAGE; SUSTAINABLE DEVELOPMENT;

NANOFLUIDICS;

ELECTRICAL POWER; ELECTROCHEMICAL METHOD; IONIC COMPOSITION; MEMBRANE; NANOTECHNOLOGY; SALINITY; SUSTAINABILITY;

EID: 79958061300 PISSN: 17545692 EISSN: 17545706 Source Type: Journal
DOI: 10.1039/c1ee01088c Document Type: Article

Times cited : (181)

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