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Encapsulation of se into hierarchically porous carbon microspheres with optimized pore structure for advanced Na-Se and K-Se batteries
Yun Chan Kang
, Jin Koo Kim
Department of Materials Science and Engineering
Research output
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Article
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peer-review
92
Citations (Scopus)
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Dive into the research topics of 'Encapsulation of se into hierarchically porous carbon microspheres with optimized pore structure for advanced Na-Se and K-Se batteries'. Together they form a unique fingerprint.
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Keyphrases
Pore Structure
100%
Hierarchical Porous Carbon
100%
Porous Carbon Microspheres
100%
K-Se Battery
100%
Electrochemical Performance
40%
Selenium
40%
Carbon Host
40%
Potassium
20%
Sodium
20%
Micropore
20%
Spray Pyrolysis
20%
High Energy Density
20%
Volume Change
20%
High Reversible Capacity
20%
Mesopore
20%
Reversible Capacity
20%
Conductive Carbon
20%
Alkali Metals
20%
Cycling Stability
20%
Micropore Volume
20%
Energy Storage System
20%
Battery System
20%
Chemical Activation
20%
Chalcogens
20%
Carbon Matrix
20%
Na-ion Batteries
20%
Structure Performance
20%
Amorphous Se
20%
N, S Co-doped
20%
Se Cathode
20%
Polyselenides
20%
Material Science
Microsphere
100%
Pore Structure
100%
Porous Carbon
100%
Cathode
40%
Sodium
20%
Alkali Metal
20%
Spray Pyrolysis
20%
Potassium
20%
Energy Density
20%