Youyi Avenue, Wuchang District No. 368
BUSINESS SCHOOL, HUBEI UNIVERSITY, WUHAN
Wuhan, Hubei 430062
China
Hubei University
waste crystalline silicon photovoltaic modules, Recycling, green solvent, hydrothermal, reuse, silver recovery
Li-S battery, synergistic effect, cerium dioxide, polysulfide conversion
Li-S battery, Synergistic effect, cerium dioxide, polysulfide conversion
PV module recycling, green solvent, Hydrothermal, EVA film, crystalline silicon solar cell
oxygen vacancies, hollow and porous nanoflowers, MnCo2O4, adsorption-catalysis, Lithium-sulfur batteries
3D Arch, Solar evaporator, MoS2@ZIF-67/CC, Photothermal Conversion, Desalination
Spent lithium-ion batteries, Recycling process, Methanol-citric acid solvent, Al foil, Regeneration of cathode material
Hydratable skeleton, in-situ polymerization, layered double hydroxide, Interfacial solar steam generation, Salt-resistant desalination
Li-S batteries, Heterostructure, Electrocatalysts, NiS2-MoS2, MXene
Solar evaporators, Self-adaptive thermal management, Selective lithium extraction, Water purification
MoO3-MoS2 heterostructure, Modified separator, Li−S battery
Spent LiFePO4 batteries, Selective leaching, Citric acid, hollow structure LiFePO4, Al foil
photocatalyst, Spent lithium iron phosphate batteries, MoS2, selective leaching, Recyclability
Lithium-sulfur batteries, Artificial SEI, Sulfonic groups, In-situ optical tests, Shuttle current
Li-S batteries, Synergistic effects, CoS2/NiS2 heterostructure, Defects, Stepwise conversion
Lithium sulfur batteries, metal cluster, Ru@NC, local charge distribution catalysts, enhancing kinetics
Spent lithium-ion batteries graphite, Sodium-ion batteries cathode, Graphite oxide, Graphene oxide.
Ti3C2 MXene, carbon nanotubes, 3D conductive networks, Lithium-sulfur batteries
Li-S batteries, Synergistic catalysis, Co2+-Ni2+ bimetallic ion, Ni-MOF-74, Stepwise conversion
Sn-doped, Hollow microspheres, Sodium ion batteries, Enlarged Layer spacing, Nitrogen-doped carbon
Lithium-Sulfur batteries, cathode, heterostructure, N-doped carbon framework;long cycling performance;
Lithium metal batteries, Solid electrolyte interphase, Organic-inorganic hybrid interface, Dendrite-free morphologies