摘要
<正>类石墨相氮化碳(g-C_3N_4)是一种可以量产并具有可见光催化活性的新型光催化材料,在环境净化领域具有很好的应用前景。但正常的氮化碳光催化剂的活性比较低,对有机物的矿化能力也比较弱,难以实现对环境污染物的彻底净化。如何提高该类光催化剂的活性以及矿化能力,是氮化碳光催化剂研究的一个重要方向。本工作主要从纳米结构的调控来实现对光催化活性的增强,通过对能带结构的调控,来实现对矿化能力的增强。建立了多种纳米结构的控制合成方法,价带位置的调控方法以及活性增强和矿化能力增强的机理。
引文
1.Jing Xu,Liwu Zhang,Rui Shi,Yongfa Zhu*,Journal of Materials Chemistry A,2013,1(46),14766-14772
2.Jing Xu,Yajun Wang,Yongfa Zhu*,Langmuir,2013,29,10566-10572
3.Mo Zhang;Jing Xu;Rui L Zong;Yongfa Zhu*,Applied Catalysis B:Environmental,2014,147,229-235
4.Xiaojuan Bai,Shicheng Yan,Jiajia Wang,Li Wang,Wenjun Jiang,Yongfa Zhu*,Journal of Materials Chemistry A,2014,2(41),17521-17529
5.Mo Zhang;Xiaojuan Bai;Di Liu;Jun Wang;Yong Fa Zhu*,Applied Catalysis B:Environmental,164(2015)77-81
6.Xiaojuan Bai,Li Wang,Ruilong Zong,Yongfa Zhu*,The Journal of Physical Chemistry C,2013,117,9952-9961
7.Xiaojuan Bai,Ruilong Zong,Di Liu,Yongfa Zhu*,Applied Catalysis B:Environmental 147(2014)82-91
8.Mo Zhang,Wenqing Yao,Yanhui Lv,Xiaojuan Bai,Yanfang Liu,Wenjun Jiang and Yongfa Zhu*,J.Mater.Chem.A,2014,2,11432
9.Xiaojuan Bai,Changpo Sun,Songling Wu and Yongfa Zhu*,J.Mater.Chem.A,2015,3,2741
10.Xiaojuan Bai,Li Wang,Yajun Wang,Wenqing Yao,Yongfa Zhu*,Applied Catalysis B:Environmental,2014,152-153(2014)262-270
11.Yajun Wang,Rui Shi,Jie Lin and Yongfa Zhu*,ENERGY&ENVIRONMENTAL SCIENCE,2011,4(8),2922-2929
12.Chengsi Pan,Jing Xu and Yongfa Zhu*,,ADVANCED FUNCTIONAL MATERIALS,2012,22,1518-1524
13.Yajun Wang,Xiaojuan Bai,Chengsi Pan,Jun He and Yongfa Zhu*,JOURNAL OF MATERIALSCHEMISTRY,2012,22,11568-11573
14.Daimei Chen*,Kewei Wang,Dugao Xiang,Ruilong Zong,Yongfa Zhu*,Applied Catalysis B:Environmental,147(2014)554-561
15.Daimei Chen*,Kewei Wang,Tiezhen Ren,Hao Ding and Yongfa Zhu*,Dalton Trans.,2014,43,13105
16.Jianwei Zhou,Mo Zhang and Yongfa Zhu*,Phys.Chem.Chem.Phys.,2015,17,3647
17.Jianwei Zhou,Mo Zhang and Yongfa zhu*,,Phys.Chem.Chem.Phys.,2014,16,17627-17633
18.Fenfen Liang,Yongfa Zhu*,Applied Catalysis B:Environmental,10.1016/j.apcatb.2015.05.009