Perspective: Hybrid systems combining electrostatic and electrochemical nanostructures for ultrahigh power energy storage

Energy and Environmental Science

Volumn 6, Issue 9, 2013, Pages 2578-2590

  Haspert, Lauren C ^a   Gillette, Eleanor ^b   Lee, Sang Bok ^b,c   Rubloff, Gary W ^a  

^a UNIVERSITY OF MARYLAND   (United States)

^b Bldg 142   (United States)

^c Korea Advanced Institute of Science and Technology (KAIST)   (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

CHEMICAL MECHANISM; ELECTROCHEMICAL CAPACITOR; ELECTROCHEMICAL DEVICES; ENERGY PERFORMANCE; HETEROGENEOUS DEVICES; HIGH ENERGY DENSITIES; HYBRID SIMULATION; RESPONSE SURFACE MODELS;

CAPACITORS; COMPUTER SIMULATION; ELECTROSTATIC DEVICES; ELECTROSTATICS; ENERGY DISSIPATION; HYBRID SYSTEMS; LEAKAGE CURRENTS; MILITARY APPLICATIONS;

NANOSTRUCTURES;

ELECTROCHEMICAL METHOD; ENERGY EFFICIENCY; GEOMETRY; NONLINEARITY; NUMERICAL MODEL; PERFORMANCE ASSESSMENT; RENEWABLE RESOURCE; STATISTICAL ANALYSIS;

EID: 84882371333     PISSN: 17545692     EISSN: 17545706     Source Type: Journal    
DOI: 10.1039/c3ee40898a     Document Type: Article

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