“…Based on the preceding findings, we propose a catalytic flame-retardancy mechanism for CCs as follows: 62–64 initially, CCs undergo decarboxylation at a low temperature, generating a significant quantity of carbon dioxide. These non-combustible gases effectively decrease the concentration of flammable gases, creating an oxygen-deficient environment that hinders the ignition of foam during the initial stages.…”
Polyurethane foams (PU), pivotal in modern life, confront fire hazards and environmental waste burdens. The current reliance of PU on potentially ecotoxic halogen/phosphorus-based flame retardants impedes large-scale material recycling. Here,...
“…Based on the preceding findings, we propose a catalytic flame-retardancy mechanism for CCs as follows: 62–64 initially, CCs undergo decarboxylation at a low temperature, generating a significant quantity of carbon dioxide. These non-combustible gases effectively decrease the concentration of flammable gases, creating an oxygen-deficient environment that hinders the ignition of foam during the initial stages.…”
Polyurethane foams (PU), pivotal in modern life, confront fire hazards and environmental waste burdens. The current reliance of PU on potentially ecotoxic halogen/phosphorus-based flame retardants impedes large-scale material recycling. Here,...
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