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作 者:芦颖[1] 秦湘阁[1] Lu Ying;Qin Xiangge(Jiamusi University,Jiamusi 154007,China)
出 处:《江苏科技信息》2020年第18期65-67,共3页Jiangsu Science and Technology Information
基 金:黑龙江省省属高等学校基本科研业务经费项目;项目名称:表面界面工程TiO2纳米纤维高效光催化剂的设计及理论研究;项目编号:2019-KYYWF-1397。
摘 要:随着工业化进程和城市化进程的发展,有机污染物和有毒水污染物的直接排放,导致水污染日益严重。光催化技术是一种处理水污染的有效方法,光催化剂稳定、丰富、清洁和安全,只要有阳光就能够工作,由于其可持续性、无害性和经济性而备受青睐。静电纺丝技术是一种一维纳米材料的通用制备技术,近几年来被广大研究者引入到光催化剂的结构设计中,已经成为研究热点。文章介绍了光催化技术,综述了近3年静电纺丝技术在光催化材料的应用进展情况。Industrialization and urbanization have led to environmental problems such as organic and toxic water pollutants with the release of many contaminants into waterways, which causes the increasingly serious water pollution. Catalytic technology is an effective method for treating water pollution. Photocatalysts are stable, abundant,clean and safe, which are simply activated in the presence of sunlight and highly preferred in terms of their being sustainable, non-hazardous and economical. Recently, electrospinning has become a research focus in fabricating photocatalysts and it is a versatile technique to produce one-dimensional nanomaterial. This paper introduces electrospinning and reviews the progress of electrospinning in photocatalytic materials in recent three years.
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