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红磷/氮化碳异质结构建及光催化全解水应用 被引量:1

Red phosphorus/carbon nitride heterostructure for photocatalytic overall water splitting
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摘要 针对红磷材料在光催化裂解水反应中存在的光生载流子易复合和牺牲剂带来的污染问题,设计构建了一种晶型红磷与氮化碳的异质结构(M-CN/C-RP)。结果表明这种异质结构能够显著提升光催化裂解水制氢效果,并且避免了牺牲剂对光催化制氢结果的影响。在不添加牺牲剂的前提下,具有异质结构的M-CN/C-RP的光催化产氢率可达30.7μmol·h^(-1),且具有更好的稳定性,在20 h内能够持续产氢。 In order to solve the problem of easy recombination of photogenerated carriers and pollution caused by sacrificial agents in the photocatalytic cracking of red phosphorus materials,a heterostructure of crystalline red phosphorus and carbon nitride(M-CN/C-RP)was designed and constructed.The results show that this heterostructure can significantly improve the efficiency of hydrogen production by photocatalytic cracking of water,and avoid the effect of sacrificial agents on the results of photocatalytic hydrogen production.Without the addition of sacrificial agent,the photocatalytic hydrogen production rate of M-CN/C-RP with heterostructure can reach 30.7μmol·h^(-1),and it has better stability and can produce hydrogen continuously within 20 h.
作者 裴泽宇 汪万乘 朱远蹠 PEI Zeyu;WANG Wancheng;ZHU Yuanzhi(School of Chemical Engineering,Kunming University of Technology,Kunming 650500,China)
机构地区 昆明理工大学化工学院
出处 《化学工业与工程》 CSCD 北大核心 2024年第5期86-92,共7页 Chemical Industry and Engineering
基金 云南省应用基础研究项目(202101BE070001-032和202101BH070002)
关键词 晶型红磷 异质结构 光催化裂解水制氢 crystal red phosphorus heterostructure photocatalytic cracking of water to produce hydrogen
分类号 TQ426 [化学工程]
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化学工业与工程
2024年 第5期

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