新疆大学学报(自然科学版)
新疆大學學報(自然科學版)
신강대학학보(자연과학판)
XINJIANG UNIVERSITY JOURNAL(NATURAL SCIENCE EDITION)
2013年
4期
431-438
,共8页
赖康荣%孙毅%崔秀花%陈惠敏
賴康榮%孫毅%崔秀花%陳惠敏
뢰강영%손의%최수화%진혜민
铋基半导体%带隙%可见光%光催化剂
鉍基半導體%帶隙%可見光%光催化劑
필기반도체%대극%가견광%광최화제
Bi-based semiconductor%band gap%visible-light%photocatalyst
光催化技术可以光解水制氢和降解有机和部分无机污染物等,在环境和能源领域受到越来越广泛的重视,而光催化材料则是该技术的关键。在目前已研发的各种光催化材料中,铋基半导体光催化材料具有可见光响应且有良好的光催化活性。本文综述了国内外对铋基光催化材料及其应用研究新进展,并展望了铋基半导体光催化材料的发展前景。
光催化技術可以光解水製氫和降解有機和部分無機汙染物等,在環境和能源領域受到越來越廣汎的重視,而光催化材料則是該技術的關鍵。在目前已研髮的各種光催化材料中,鉍基半導體光催化材料具有可見光響應且有良好的光催化活性。本文綜述瞭國內外對鉍基光催化材料及其應用研究新進展,併展望瞭鉍基半導體光催化材料的髮展前景。
광최화기술가이광해수제경화강해유궤화부분무궤오염물등,재배경화능원영역수도월래월엄범적중시,이광최화재료칙시해기술적관건。재목전이연발적각충광최화재료중,필기반도체광최화재료구유가견광향응차유량호적광최화활성。본문종술료국내외대필기광최화재료급기응용연구신진전,병전망료필기반도체광최화재료적발전전경。
Due to photocatalytic redox reaction in the degradation of organic pollutants, inorganic pol-lutants and water-splitting into hydrogen, photocatalysis is catching more and more attention in the en-vironmental decontamination and renewable clean energy production field. The key is to explore efficient photocatalysts. Among photocatalytic materials, Bi-based photocatalysts have better activity under visible light region. This paper reports the new development of the visible-light driven Bi-based photocatalysts and their application, and the prospective developments in new visible-light photocatalysts have been anticipated.
