多相催化
光催化
电催化
MOFs催化
1990年-1994年,南开大学化学系,学士
1994年-1997年,南开大学化学系,硕士
1999年-2002年,日本东京农工大学,博士
2002年-2004年,日本东京农工大学,博士后
2004年-2015年,南开大学化学学院材料化学系,副教授
2015年-现在,永利欢乐娱人城,副教授
1.Energy Level Engineering: Ru Single Atom Anchored on Mo-MOF with a [Mo8O26(im)2]4− Structure Acts as a Biomimetic Photocatalyst, S. Wang, J. J. Zhang, M. Y. Zong, J. Xu, D. H. Wang*, and X. H. Bu,ACS Catal.2022, 12, 7960−7974.
2. Rational design of ionic V-MOF with confined Mo species for highly efficient oxidative desulfurization, S. Wang, X. Zhang, X. Chang, M. Y. Zong, C. Z. Fan, D. X. Guo, J. Xu, D. H. Wang*, X. H. Bu*, Appl. Catal. B: Environ.2021, 298, 120594-120605.
3. Confined heteropoly blues in defected Zr-MOF (Bottle around ship) for high-efficiency oxidative desulfurization, X. Chang, X. F. Yang, Y. Qiao, S. Wang, M. H. Zhang, J. Xu, D. H. Wang*, X. H. Bu*, Small, 2020, 1906432.
4. Synergistic effect of Zr-MOF on phosphomolybdic acid promotes efficient oxidative desulfurization,X. M. Zhang, Z. H. Zhang, B. H. Zhang, X. F. Yang, X. Chang, Z. Zhou, D. H. Wang*, M. H. Zhang*, X. H. Bu, Appl. Catal. B: Environ. 2019, 256, 117804-117813.
5. Nitrogen-doped carbon shell-confined Ni3S2 composite nanosheets derived from Ni-MOF for high performance sodium-ion battery anodes, W. Shuang, H. Huang, L. J. Kong, M. Zhong, A. Li, D. H. Wang*, Y. H. Xu, X. H. Bu*, Nano Energy 2019, 62, 154-163.
6. Electronic structure of heterojunction MoO2/g-C3N4 catalyst for oxidative desulfurization, K. Chen, X. M. Zhang, X. F. Yang, M. G. Jiao, Z. Zhou, M. H. Zhang*, D. H. Wang*, X. H. Bu, Appl. Catal. B: Environ. 2018, 238, 263-273.
7. Oxidative desulfurization of dibenzothiophene over monoclinic VO2 phase-transition catalysts, K. Chen, N. Liu, M. H. Zhang*, D. H. Wang*, Appl. Catal. B: Environ. 2017, 212, 32-40.