Cooperative catalysis of Cu/2,2,6,6-tetramethyl-1-piperidine-N-oxyl nanocatalysts supported by ultraviolet light-responsive polyimides

Abstract: The development of ultraviolet (UV) light-regulated cooperative catalysts has attracted wide attention and increased the understanding of structure-activity relationships. Here, we have used azobenzene-containing polyimides as supports for the controllable...

“…7C). 114,122 Because of the relatively strong interactions between pyrene moieties and NDI moieties, catalytic species had more well-matched spatial distributions for better synergistic catalysis. Meanwhile, randomly distributed stacking clusters within nanoparticles were generated, avoiding the dilution effect of inert moieties and ensuring high local concentrations of catalytic species.…”

“…7C). 114,122 Because of the relatively strong interactions between pyrene moieties and NDI moieties, catalytic species had more wellmatched spatial distributions for better synergistic catalysis.…”

Recent advances in mixing-induced nanoprecipitation: from creating complex nanostructures to emerging applications beyond biomedicine

“…7C). 114,122 Because of the relatively strong interactions between pyrene moieties and NDI moieties, catalytic species had more well-matched spatial distributions for better synergistic catalysis. Meanwhile, randomly distributed stacking clusters within nanoparticles were generated, avoiding the dilution effect of inert moieties and ensuring high local concentrations of catalytic species.…”

“…7C). 114,122 Because of the relatively strong interactions between pyrene moieties and NDI moieties, catalytic species had more wellmatched spatial distributions for better synergistic catalysis.…”

Recent advances in mixing-induced nanoprecipitation: from creating complex nanostructures to emerging applications beyond biomedicine

Heterogenization of homogeneous catalysts in polymer nanoparticles: From easier recovery and reuse to more efficient catalysis

Zn(II)-complex-based hydrolytic nanozymes prepared by nanoprecipitation for the hydrolysis of carboxylic esters and methyl parathion