Graphene nanoplatelets are chemically crosslinked to aramid nanofibers through a phosphorus trime... more Graphene nanoplatelets are chemically crosslinked to aramid nanofibers through a phosphorus trimer to fabricate ultratough, thermoconductive, flame retardant, and EMI shielding films.
We present a brief account of the theory of diffusion-influenced kinetics of reactions involving ... more We present a brief account of the theory of diffusion-influenced kinetics of reactions involving polymers. The review will be based on the recent contributions from the authors. Both intrapolymer and interpolymer reactions are considered, and the effects of various physical factors, such as the chain length, chain stiffness, and hydrodynamic interactions, are described within a unified theoretical framework. Key Words: Diffusion-influenced kinetics, Intrachain and interchain reactions
Graphene nanoplatelets are chemically crosslinked to aramid nanofibers through a phosphorus trime... more Graphene nanoplatelets are chemically crosslinked to aramid nanofibers through a phosphorus trimer to fabricate ultratough, thermoconductive, flame retardant, and EMI shielding films.
We present a brief account of the theory of diffusion-influenced kinetics of reactions involving ... more We present a brief account of the theory of diffusion-influenced kinetics of reactions involving polymers. The review will be based on the recent contributions from the authors. Both intrapolymer and interpolymer reactions are considered, and the effects of various physical factors, such as the chain length, chain stiffness, and hydrodynamic interactions, are described within a unified theoretical framework. Key Words: Diffusion-influenced kinetics, Intrachain and interchain reactions
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