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Disclosure of charge storage mechanisms in molybdenum oxide nanobelts with enhanced supercapacitive performance induced by oxygen deficiency
Ping QIN
, Shi-Qing ZHANG
,
Kin Lam Ken YUNG
, Zhi Feng HUANG
, Biao GAO
Department of Science and Environmental Studies (SES)
Research output
:
Contribution to journal
›
Articles
›
peer-review
38
Citations (Scopus)
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Dive into the research topics of 'Disclosure of charge storage mechanisms in molybdenum oxide nanobelts with enhanced supercapacitive performance induced by oxygen deficiency'. Together they form a unique fingerprint.
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Keyphrases
Nanobelts
100%
Oxygen Deficiency
100%
Supercapacitance
100%
Charge Storage Mechanism
100%
Supercapacitive Performance
100%
Molybdenum Oxide
100%
Molybdenum Trioxide
66%
Interlayer Spacing
66%
Atomic Scale
66%
O Vacancy
66%
Copyright
33%
Energy Conversion
33%
Facile Method
33%
Active Sites
33%
Carbonization
33%
Energy Storage
33%
Supercapacitor Energy Storage
33%
Supercapacitor Electrode Materials
33%
Bi-axis
33%
Capacitance
33%
Theoretical Capacitance
33%
Low Conductivity
33%
MoO3 Nanobelts
33%
Reversible Change
33%
Proton Adsorption
33%
Material Science
Nanoribbon
100%
Molybdenum Oxide
100%
Capacitance
100%
Supercapacitors
50%
Chemical Engineering
Nanobelts
100%
Adsorption
50%
Carbonization
50%