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Electrochemical Na
+
storage properties of SnO
2
/graphene anodes in carbonate-based and ionic liquid electrolytes
Hung Ching Chen
, Jagabandhu Patra
,
Sheng Wei Lee
,
Chung Jen Tseng
, Tzi Yi Wu
, Ming Hsein Lin
, Jeng Kuei Chang
材料科學與工程研究所
機械工程學系
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
23
引文 斯高帕斯(Scopus)
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指紋
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深入研究「Electrochemical Na
+
storage properties of SnO
2
/graphene anodes in carbonate-based and ionic liquid electrolytes」主題。共同形成了獨特的指紋。
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Keyphrases
Application Demand
33%
Assisted Synthesis
33%
Bis(trifluoromethylsulfonyl)imide
33%
Capacity Rate
33%
Carbonate
100%
Carbonate Electrolyte
33%
Carbonate Solvent
33%
Charge-discharge Property
33%
Cyclic Stability
66%
Desodiation
33%
Electrode Capacity
33%
Electrolyte
66%
Electrolyte Composition
33%
Electrolyte Formulation
33%
Ethylene Carbonate
100%
Fluoroethylene Carbonate
66%
Fluoroethylene Carbonate Additive
33%
Graphene Anode
100%
Ionic Liquid Electrolyte
100%
Na+ Storage
100%
Na-ion
33%
Operation Temperature
33%
Propyl
33%
Propylene Carbonate
100%
Rate Capability
33%
SnO2
100%
Sodiation
33%
Sodium Perchlorate
33%
Solid Electrolyte Interphase Layer
33%
Supercritical CO2 (SCO2)
33%
Synthesis Methods
33%
Chemistry
Carbon Dioxide
20%
electrode
100%
Electrolyte Solution
100%
Ethylene
60%
formation
20%
Graphene
100%
Imide
20%
Ionic Liquid
100%
Propene
60%
Sodium Ion Battery
20%
Solid Electrolyte
20%
stability
40%
Table Salt
20%
Material Science
Anode
100%
Carbon Dioxide
50%
Graphene
100%
Ionic Liquid
100%
Sodium Ion Battery
50%
Solid Electrolyte
50%
Engineering
Cyclic Stability
66%
Ethylene Carbonate
100%
Graphene
100%
Operation Temperature
33%
Rate Capability
33%
Sodium Ion Battery
33%
Solid Electrolyte Interphase
33%
Synthesis Method
33%
Chemical Engineering
Carbon Dioxide
33%
Ethylene
100%
Graphene
100%
Propylene
100%