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[1] Elaborate artificial construction of porous biomass carbon interfacial layer on the surface of zinc anode toward high performance aqueous zinc-ion batteries
[2] Two types of nitrogen and sulfur co-doped carbons derived from soybean sprouts enabling high performance lithium-sulfur batteries
[3] Achieving High Performance Aqueous Zn-Ion Batteries via Interfacial Coating of N, P Dual-Doped Biomass Porous Carbon on Zn Metal Anode
[4] Incorporating lithium magnesium silicate into PVDF-HFP based solid electrolyte to achieve advanced solid-state lithium-ion batteries
[5] Graphitic carbon nitride assisted PVDF-HFP based solid electrolyte to realize high performance solid-state lithium metal batteries
[6] Multi-component solid PVDF-HFP/PPC/LLTO-nanorods composite electrolyte enabling advanced solid-state lithium metal batteries
[7] Biomass-derived high value-added porous carbon as the interlayer material for advanced lithium-sulfur batteries
[8] Toward high performance solid-state lithium-ion battery with a promising PEO/PPC blend solid polymer electrolyte
[9] Toward high performance solid-state lithium-ion battery with a promisingPEO/PPCblend solid polymer electrolyte
[10] Boosting the performance of poly(ethylene oxide)-based solid polymer electrolytes by blending with poly(vinylidene fluoride-co-hexafluoropropylene) for solid-state lithium-ion batteries
[11] Evaluation of the Biosorption Characteristics of Tremella fuciformis for the Decolorization of Cationic Dye from Aqueous Solution
[12] High Performance Lithium-Sulfur Batteries with a Sustainable and Environmentally Friendly Carbon Aerogel Modified Separator
[13] An environmentally friendly carbon aerogels derived from waste pomelo peels for the removal of organic pollutants/oils
[14] A novel solid PEO/LLTO-nanowires polymer composite electrolyte for solid-state lithium-ion battery
[15] The application of graphitic carbon nitride for the adsorption of Pb2+ ion from aqueous solution
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