Polyacrylonitrile-metal sulfide nanocomposites with metal sulfide(Ag2S, CuS, PbS) nanoparticles homo- geneously dispersed on the polyacrylonitrile(PAN) nanofibre were synthesized by means of electrospinning techno...Polyacrylonitrile-metal sulfide nanocomposites with metal sulfide(Ag2S, CuS, PbS) nanoparticles homo- geneously dispersed on the polyacrylonitrile(PAN) nanofibre were synthesized by means of electrospinning techno- logy combined with gas-solid reaction. A series of experiments was performed to characterize the morphology varia- tion and distribution of the nanocrystalline. The result shows that the concentration of metal salt aqueous solution affects the size and morphology of metal sulfide nanoparticles during the chelating process. Further more, these metal ions nanoparticles were attached to the surface of the nanofibre homogeneously through chelating effect which will be propitious to prevent nanoparticles from aggregation. These results suggest that the method reported here is ex- tremely effective for synthesizing PAN-metal sulfide nanocomposites which have good visible light photocatalytic activity. Further more, this method could be extended to prepare other PAN-metal halides nanocomposites, too.展开更多
文摘Polyacrylonitrile-metal sulfide nanocomposites with metal sulfide(Ag2S, CuS, PbS) nanoparticles homo- geneously dispersed on the polyacrylonitrile(PAN) nanofibre were synthesized by means of electrospinning techno- logy combined with gas-solid reaction. A series of experiments was performed to characterize the morphology varia- tion and distribution of the nanocrystalline. The result shows that the concentration of metal salt aqueous solution affects the size and morphology of metal sulfide nanoparticles during the chelating process. Further more, these metal ions nanoparticles were attached to the surface of the nanofibre homogeneously through chelating effect which will be propitious to prevent nanoparticles from aggregation. These results suggest that the method reported here is ex- tremely effective for synthesizing PAN-metal sulfide nanocomposites which have good visible light photocatalytic activity. Further more, this method could be extended to prepare other PAN-metal halides nanocomposites, too.
