广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2015年
7期
34-36
,共3页
碳化硅SiC%光催化%氢气
碳化硅SiC%光催化%氫氣
탄화규SiC%광최화%경기
silicon carbide%photocatalytic%hydrogen
简单介绍了半导体光催化分解水制氢的原理,综述了改变SiC的尺寸形貌、负载石墨烯、负载贵金属、半导体复合等方法对SiC的光催化产氢性能的影响,重点讨论了复合半导体的光催化产氢机理及SiC与其他半导体复合的研究进展,并提出前景展望。
簡單介紹瞭半導體光催化分解水製氫的原理,綜述瞭改變SiC的呎吋形貌、負載石墨烯、負載貴金屬、半導體複閤等方法對SiC的光催化產氫性能的影響,重點討論瞭複閤半導體的光催化產氫機理及SiC與其他半導體複閤的研究進展,併提齣前景展望。
간단개소료반도체광최화분해수제경적원리,종술료개변SiC적척촌형모、부재석묵희、부재귀금속、반도체복합등방법대SiC적광최화산경성능적영향,중점토론료복합반도체적광최화산경궤리급SiC여기타반도체복합적연구진전,병제출전경전망。
The basic mechanism of photocatalytic water-splitting to hydrogen over semiconductor photocatalyst was introduced.The methods to enhance hydrogen production were reviewed, including changing its morphology, loading graphene, loading noble metal, combining with semiconductors, and their effects on hydrogen production were discussed.The hydrogen-producing mechanism of compound semiconductor materials and the related research progress were focused on.The foreground was also prospected.
