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Metal-Doped NASICON/Polymer Composite Solid Electrolyte for Lithium Titania Anode in Lithium-Ion Batteries
Chien Te Hsieh
*
, Tzu Shaing Cho
,
Jeng Kuei Chang
*
, Jagabandhu Patra
*
*
此作品的通信作者
材料科學與工程學系
研究成果
:
Article
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同行評審
13
引文 斯高帕斯(Scopus)
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Keyphrases
Ambient Temperature
20%
Capacity Retention
20%
Cation Dopants
20%
Charge-discharge
20%
CoCu
20%
Composite Electrolyte
100%
CoSn
20%
Cu-Sn
20%
CuZr
20%
Dopant
20%
Excellent Cycling Performance
20%
High Coulombic Efficiency
20%
High Cycling Stability
20%
High Durability
20%
High Rate Capability
40%
Interfacial Resistance
20%
Ionic Conductivity
40%
Lattice Parameter
20%
Li +
20%
Li+ Transport
20%
Li1.3Al0.3Ti1.7(PO4)3
80%
Li4Ti5O12
20%
Li4Ti5O12 Anode
20%
Lithium
100%
Lithium Bis(fluorosulfonyl)imide (LiFSI)
20%
Lithium-ion Battery
100%
Metal-doped
100%
NASICON
100%
Poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP)
20%
Polymer Composites
100%
Sn Doping
20%
Sol-gel Method
20%
Solid Electrolyte
20%
Solid-state Cell
20%
Solid-state Lithium Batteries
20%
Thermal Calcination
20%
Titanium Anode
100%
Material Science
Anode
100%
Calcination
16%
Composite Material
50%
Doping (Additives)
33%
Ionic Conductivity
33%
Lattice Constant
16%
Lithium
100%
Lithium Battery
16%
Lithium Ion Battery
100%
Polymer Composite
100%
Solid Electrolyte
100%
Titanium Dioxide
100%
Engineering
Cell State
50%
Cycling Stability
50%
Dopants
100%
Interfacial Resistance
50%
Lattice Constant
50%
Lattice Parameter
50%
Lithium Battery
50%
Lithium-Ion Batteries
100%
Measured Value
50%
Rate Capability
100%
Retention Capacity
50%
Sol-Gel Process
50%
Chemical Engineering
Calcination
100%