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Volumn 3, Issue 12, 2010, Pages 1995-2002
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Factors affecting cyclic durability of all-solid-state lithium polymer batteries using poly(ethylene oxide)-based solid polymer electrolytes
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Author keywords
[No Author keywords available]
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Indexed keywords
AC-IMPEDANCE;
ACCELERATED AGING TEST;
ALL-SOLID-STATE;
ASSEMBLED CELL;
BINDER MATERIAL;
CAPACITY FADING;
CATHODE PARTICLES;
CATHODE SHEET;
CELL THICKNESS;
CHARGE-DISCHARGE CYCLE;
COMPOSITE ASSEMBLY;
CYCLIC DURABILITY;
ELECTROCHEMICAL CYCLE;
ELECTROCHEMICAL MEASUREMENTS;
ELECTROCHEMICAL POLARIZATION;
ELECTRODE-ELECTROLYTE INTERFACES;
ENERGY MEASUREMENTS;
FILM FORMATIONS;
FIRST CYCLE;
IN-SITU;
ION EXCHANGE REACTIONS;
LI SALT;
LIFEPO;
LIQUID ELECTROLYTES;
LITHIUM POLYMER BATTERIES;
LOCAL POLARIZATION;
NMR-IMAGING;
ONE-FACTOR;
REAL TIME MONITORING;
SOLID ELECTROLYTE INTERFACES;
SOLID POLYMER ELECTROLYTES;
SOLID STATE POLYMER ELECTROLYTE;
SOLID-SOLID CONTACTS;
TEMPERATURE CONDITIONS;
VOLUMETRIC CHANGES;
ACTIVATION ENERGY;
BIOMECHANICS;
CATALYST ACTIVITY;
DECOMPOSITION;
DEGRADATION;
DURABILITY;
ELECTRIC CONNECTORS;
ELECTRIC DISCHARGES;
ELECTRIC SWITCHGEAR;
ELECTROCHEMICAL PROPERTIES;
ETHYLENE;
ION EXCHANGE;
LITHIUM;
MAGNETIC RESONANCE IMAGING;
MECHANICAL PROPERTIES;
PHASE INTERFACES;
POLARIZATION;
POLYELECTROLYTES;
POLYETHYLENE OXIDES;
POLYMERS;
SECONDARY BATTERIES;
SOLID STATE DEVICES;
TESTING;
SOLID ELECTROLYTES;
DEGRADATION;
DURABILITY;
ELECTROCHEMICAL METHOD;
ELECTROCHEMISTRY;
ELECTROLYTE;
ION EXCHANGE;
LITHIUM;
MECHANICAL PROPERTY;
NUCLEAR MAGNETIC RESONANCE;
POLARIZATION;
POLYMER;
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EID: 78649556348
PISSN: 17545692
EISSN: 17545706
Source Type: Journal
DOI: 10.1039/c0ee00266f Document Type: Article |
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Times cited : (138)
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References (33)
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