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- Flame-retardant in-situ formed gel polymer electrolyte with different . . .
Herein, a novel flame-retardant gel polymer electrolyte (GPE) containing + 3 and + 5 phosphorus valence states of phosphorus structures was designed by in-situ thermal polymerization of tri (acryloyloxyethyl) phosphate (TAEP), diethyl vinylphosphonate (DEVP), and pentaerythritol tetraacrylate in electrolytes
- Phosphorus flame retardant in situ fixed on a gel polymer electrolyte . . .
Herein, a flame-retardant gel polymer electrolyte (FGPE) is prepared by in situ copolymerization of a flame-retardant additive on a polymer backbone The phosphorus additive 9,10-dihydro-9-oxa-10-phosphaphenanthrene 10-oxide (DOPO) presents excellent flame-retardant properties, while the abundant C O C–O groups on polyethylene glycol methyl
- In Situ Polymerized Flame Retardant Gel Electrolyte for High . . .
Herein, a novel solvent triethyl 2-fluoro-2-phosphonoacetate (TFPA) with outstanding flame retardancy is introduced in the polymer skeleton synthesized by in situ polymerization of the monomer polyethylene glycol dimethacrylate (PEGDMA) and the cross-linker pentaerythritol tetraacrylate (PETEA)
- Design strategy towards flame-retardant gel polymer electrolytes for . . .
This electrolyte reportedly combines the advantages of a phosphoric group-based lithium salt electrolyte with a high concentration of lithium salt and a polymer backbone to provide flame retardant, electrochemical stability, and high mechanical strength
- Flame-retardant in-situ formed gel polymer electrolyte with different . . .
Herein, a novel flame-retardant gel polymer electrolyte (GPE) containing + 3 and + 5 phosphorus valence states of phosphorus structures was designed by in-situ thermal polymerization of tri (acryloyloxyethyl) phosphate (TAEP), diethyl vinylphosphonate (DEVP), and pentaerythritol tetraacrylate in electrolytes
- An in-situ polymerization strategy for gel polymer electrolyte Si||Ni . . .
To reconcile the cation utilization degree, stress dissipation, and extreme temperature tolerance of the Si-based anode||NMC prototype, we propose a gel polymer electrolyte to reinforce the
- 3D hierarchical fireproof gel polymer electrolyte towards high . . .
Herein, we propose a groundbreaking conceive of a fireproof cross-linking composite GPE that united phosphene and a P-N synergistic flame retardant (DPM), equipping a dual-enhanced conduction effect on Li + ions and a cooperative P-N flame-retardant effect
- In-Situ Formed, Nonflammable and Electrochemical Stable Gel Polymer . . .
The results highlight their exceptional flame-retardant properties and potential for high-voltage lithium-ion batteries The PAL-containing GPEs exhibited good electrochemical properties despite the restriction of lithium-ion migration within the cross-linked polymer network
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