【铋系可见光催化剂高效降解水中有毒害有机污染物 】
祝凌燕教授等围绕具有可见光响应的铋系催化剂制备及其高效降解水环境中有毒污染物的应用开展的系列研究,合成了一系列以Bi2WO6、BiOI等为基础,通过硼、银、碳量子点、多壁碳纳米管等掺杂改性或复合的具有可见光响应的新型光催化材料,揭示了其高效光电转化的分子机制;利用所合成的可见光催化材料对水体中环境激素、藻毒素、抗生素、全氟化合物等进行高效降解,揭示其高效降解的分子机制;构建了循环式催化反应器,将可见光材料制备成薄膜,利用薄膜型催化次啊聊和循环光反应器,实现充分利用太阳光降解去除水体有机污染物。
相关成果已被环境科学领域国际知名期刊 Environmental Science & Technology,ACS Applied Materials & Interfaces,Applied Catalysis B: Environmental,Chemical Engineering Journal,Journal of Hazardous Materials,Environmental Pollution 等收录发表, ESI高被引3篇,他引频次达700余次。申请国内专利6项。 ![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/a70263ca-c501-4cf4-8f70-7ae54210461b.jpg)
L. F. Yue et al. / Applied Catalysis B: Environmental 176 (2015) 11-19
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/af43ca9b-a4cb-4448-8b81-31e19f68fbef.jpg)
Chang, C., et al. / ACS Applied Materials & Interfaces 6 (2014) 5083−5093
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/0383f70d-24d3-4573-8463-921c517f1cc4.jpg)
Chang, C., et al. / Applied Catalysis B-Environmental 142: (2013) 553-560
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/aadc7c26-d3a5-4a73-aa77-73aa27d739c2.jpg)
Chang, C., et al. / Chemical Engineering Journal 233 (2013) 305-314
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/378b59ea-8682-4eb1-9697-f5e5fda3bf4a.jpg)
S. Cui et al. / Applied Catalysis B: Environmental 219 (2017) 249–258
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/bc5eda92-2c22-4690-857a-842034613041.jpg)
Z. Li et al. / Applied Catalysis B: Environmental 192 (2016) 277–285
祝凌燕教授等围绕具有可见光响应的铋系催化剂制备及其高效降解水环境中有毒污染物的应用开展的系列研究,合成了一系列以Bi2WO6、BiOI等为基础,通过硼、银、碳量子点、多壁碳纳米管等掺杂改性或复合的具有可见光响应的新型光催化材料,揭示了其高效光电转化的分子机制;利用所合成的可见光催化材料对水体中环境激素、藻毒素、抗生素、全氟化合物等进行高效降解,揭示其高效降解的分子机制;构建了循环式催化反应器,将可见光材料制备成薄膜,利用薄膜型催化次啊聊和循环光反应器,实现充分利用太阳光降解去除水体有机污染物。
相关成果已被环境科学领域国际知名期刊 Environmental Science & Technology,ACS Applied Materials & Interfaces,Applied Catalysis B: Environmental,Chemical Engineering Journal,Journal of Hazardous Materials,Environmental Pollution 等收录发表, ESI高被引3篇,他引频次达700余次。申请国内专利6项。
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/a70263ca-c501-4cf4-8f70-7ae54210461b.jpg)
L. F. Yue et al. / Applied Catalysis B: Environmental 176 (2015) 11-19
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/af43ca9b-a4cb-4448-8b81-31e19f68fbef.jpg)
Chang, C., et al. / ACS Applied Materials & Interfaces 6 (2014) 5083−5093
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/0383f70d-24d3-4573-8463-921c517f1cc4.jpg)
Chang, C., et al. / Applied Catalysis B-Environmental 142: (2013) 553-560
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/aadc7c26-d3a5-4a73-aa77-73aa27d739c2.jpg)
Chang, C., et al. / Chemical Engineering Journal 233 (2013) 305-314
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/378b59ea-8682-4eb1-9697-f5e5fda3bf4a.jpg)
S. Cui et al. / Applied Catalysis B: Environmental 219 (2017) 249–258
![](/_upload/article/images/dd/31/6d1360ba411a9e967e1c9e332410/bc5eda92-2c22-4690-857a-842034613041.jpg)
Z. Li et al. / Applied Catalysis B: Environmental 192 (2016) 277–285