Chengdu, 610500
China
Southwest Petroleum University - School of New Energy and Materials
Zinc ion battery, aqueous electrolyte, inositol additive, Zn anode, solvation structure
Sodium-ion batteries, NASICON cathode materials, sodium manganese titanium phosphate, microbe assisted
aqueous zinc-ion batteries, Zn anode, gum arabic, solvated structure, hydrogen evolution
lithium metal battery, limited anode, high voltage, high loading cathode, flame retardant
cotton fibers, PVA, membrane, High voltage, neutral gel polymer electrolyte, aqueous supercapacitor
Li-rich Mn-based layered oxide, lithium deficiencies engineering, spinel-layered mixture phase, Electrochemical performance, Mechanism
trigonelline hydrochloride, hydrogen evolution reaction, corrosion of Zn foil, dendrite growth, zinc ion batteries.
Bimetallic sulfide, Nano-cubic boxes, Sodium-ion batteries, Anode
Aqueous zinc-ion batteries, additive, Malic acid, Solvated structure, Surface adsorption
Lithium-ion battery, Gel polymer electrolyte, Lignocellulose, Polyvinylidene fluoride
Aqueous zinc ion battery, Taurine, Inner Helmholtz plane, Surface adsorption, Solvated structure
cotton fibers, Al3+ additive, neutral gel polymer electrolyte, high voltage, aqueous supercapacitor
Ternary-salt, localized high-concentration electrolyte, Lithium metal battery, High-voltage stability, High safety
vanadium disulfide, reduced graphene oxide, anode, sodium ion battery, sodium ion capacitor
Aqueous zinc-ion batteries, Electrolyte, Co-solvent, Ethyl acetate
Li-rich Mn-based layered oxide, lithium deficiencies engineering, spinel phase, electrochemical performance, Mechanism
Zinc-ion batteries, Zn anode, Hydroxypropyl guar gum, Oriented Zn deposition
Sodium-ion batteries, Cathode, NASICON, Cation/Anion doping, Na4MnV(PO4)3
Lithium-rich manganese-based layered oxides, Cathode, Single crystal, Calcination temperature, Electrochemical performance
Lithium-metal batteries, Separator engineering, uniform sedimentation
Copper ion doped, CoV2S4, Anode, Sodium ion battery
Lithium-ion battery, Functional separator coating, Hydroxypropyl methylcellulose, Structural color, Thermal runaway risks
Lithium-sulfur batteries, Co/Co2P heterojunction, d-band center, Heteroatom co-doped carbon nanocages, Transformation kinetics
Lithium-ion Battery, Functional separator coating, Hydroxypropyl methylcellulose, structural color, Thermal runaway risks
Tungsten disulfide, Molybdenum disulfide, Heterojunction, Unsaturated sulfur sites, Sodium-ion battery
Lithium-rich manganese-based oxides, Monodisperse Particle, Molten salt calcination, Cationic ordering, Particle size
Iron-cobalt alloys, Lithium-sulfur batteries, Shuttle effect, Catalytic conversion
lignocellulose, gel polymer electrolyte, electric double-layer capacitor, coordinating Zn2+ with the -OH groups
Lithium-ion batteries, Separator engineering, Hydroxypropyl methylcellulose, Chiral nematic liquid crystal, safety
Coordination regulation, Dual-active site, Lithium-ion batteries, Organic anode, Phthalic acid
Energy storage and conversion, Lithium-rich manganese-based layered oxides, Cathode, Single crystal, electrochemical performance, microstructure