期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
Magnetic-porous microspheres with synergistic catalytic activity of small-sized gold nanoparticles and titania matrix 被引量:1
1
作者 Kadriye Ozlem Hamaloglu Ebru Sag +3 位作者 Cigdem Kip Erhan Senlik berna saracoglu kaya Ali Tuncel 《Frontiers of Chemical Science and Engineering》 SCIE EI CAS CSCD 2019年第3期574-585,共12页
Fe3O4 nanoparticles immobilized on porous titania in micron-size range were decorated with smallsized gold nanoparticles and used as a plasmonic catalyst for the reduction of 4-nitrophenol. Monodisperse-porous magneti... Fe3O4 nanoparticles immobilized on porous titania in micron-size range were decorated with smallsized gold nanoparticles and used as a plasmonic catalyst for the reduction of 4-nitrophenol. Monodisperse-porous magnetic titania microspheres were synthesized with bimodal pore-size distribution by the sol-gel templating method. Small-sized gold nanoparticles obtained by the Martin method were attached onto the aminated form of the magnetic titania microspheres. A significant enhancement in the catalytic activity was observed using the gold nanoparticle-decorated magnetic titania microspheres compared to gold nanoparticle-decorated magnetic silica microspheres because of the synergistic effect between small-sized gold nanoparticles and titania. The synergistic effect for gold nanoparticle-attached magnetic titania microspheres could be explained by surface plasmon resonance-induced transfer of hot electrons from gold nanoparticles to the conduction band of titania. Using the proposed catalyst, 4-nitrophenol could be converted to 4-aminophenol in an aqueous solution within 0.5 min. The 4-nitrophenol reduction rates were 2.5-79.3 times higher than those obtained with similar plasmonic catalysts. The selection of micron-size, magnetic, and porous titania microspheres as a support material for the immobilization of small-sized gold nanoparticles provided a recoverable plasmonic catalyst with high reduction ability. 展开更多
关键词 small-sized gold nanoparticles MAGNETIC TITANIA microspheres sol-gel template synthesis plasmonic catalysis 4-NITROPHENOL
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部