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Layered electrode materials for non-aqueous multivalent metal batteries
Ahiud Morag, Minghao Yu
Research output
:
Contribution to journal
›
Review article
›
peer-review
21
Scopus citations
Overview
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Dive into the research topics of 'Layered electrode materials for non-aqueous multivalent metal batteries'. Together they form a unique fingerprint.
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Keyphrases
Electrode Materials
100%
Layered Electrode
100%
Metal-ion Batteries
100%
Non-aqueous
100%
Lithium-ion Battery
28%
Structure Engineering
28%
Intrinsic Properties
14%
High Cost
14%
Cell Configuration
14%
Mg2+
14%
Resource Scarcity
14%
Direct Use
14%
Safety Issues
14%
Electrochemical Performance
14%
Engineering Performance
14%
Engineering Strategies
14%
Zn2+
14%
Electric Vehicle
14%
Strong Electrostatic Interaction
14%
Charge Carriers
14%
Mg-Zn
14%
Li +
14%
Al3+
14%
Charge Storage
14%
Layered Materials
14%
Redox Potential
14%
Performance Assessment
14%
Zn-Al
14%
Portable Electronics
14%
Global Transition
14%
Energy Storage Applications
14%
Elemental Abundances
14%
Large-scale Energy Storage
14%
Efficient Energy Storage
14%
Cathode Design
14%
Cathode Chemistry
14%
Al Batteries
14%
Redox Capability
14%
Battery Chemistry
14%
Multivalent Metal Ions
14%
Clean Energy Production
14%
Electrolyte Cathode
14%
Energy Storage Solutions
14%
Storage Behavior
14%
Mg-ion Batteries
14%
Battery Cathode
14%
Zn-ion Batteries
14%
Electronic Vehicle
14%
Multi-electron Redox
14%
Li Resource
14%
Material Science
Battery (Electrochemical Energy Engineering)
100%
Cathode
66%
Anode
33%
Lithium Ion Battery
22%
Electrostatic Interaction
11%
Charge Carrier
11%
Plating
11%
Layered Material
11%