Cheng Daojian

Name

姓名

Cheng Daojian

Gender

性别

male

College

学院

College of Chemical Engineering

Highest degree

最高学历

Ph.D.

Professional Title

职称

Professor

Discipline/Major

专业

Chemical Engineering and Technology

Research Area/Direction

招生研究方向

Design, preparation and application of nano-alloy catalysts for petrochemical, fine chemical and energy chemical applications.

Office Phone

办公电话

Cell Phone

手机号码

Email

邮箱

chengdj@mail.buct.edu.cn

Research Topics（no more than 100 words）研究方向

1.Design and application of green chemical catalyst based on structural descriptor

2. Controllable preparation, performance tuning and application of atomically dispersion catalysts

Education Background 教育背景

Sept. 2004 – June 2008. Ph.D. in Chemical Engineering from College of Chemical Engineering, Beijing University of Chemical Technology (BUCT), Beijing, P. R. China

Sept. 2000 – July 2004. B.S. in Computer Science and Technology from College of Computer Science and Technology, BUCT, Beijing, P. R. China

Work Experience 工作经历

Jau. 2015 – Now. Professor in College of Chemical Engineering, Beijing University of Chemical Technology, Beijing, P. R. China

Dec. 2010 – Dec. 2014. Associate Professor in College of Chemical Engineering, Beijing University of Chemical Technology, Beijing, P. R. China

Mar. 2010 – Apr. 2010. EC-funded HPC-Europa2 visitor programme in Institute for Physical and Chemical Processes (IPCF), Italian Research Council (CNR), Pisa, Italy

Oct. 2008 – Nov. 2010. Postdoctoral Research Fellow in Physique des Solides Irradiés et des Nanostructures, Université Libre de Bruxelles (ULB), Bruxelles, Belgium

Publications(no more than 10 representative publications) 发表文章

1. Cao, D.; Hu, HX.; Li, HL.; Chen, F.; Zeng, J.* and Cheng, DJ*.; Volcano-type relationship between oxidation states and catalytic activity of single-atom catalysts towards hydrogen evolution. Nature Communications 2022, 13: 5843.

2. Xu, H.; Cheng, D.*; Cao, D. *; Zeng, X. C. *, A universal principle for a rational design of single-atom electrocatalysts. Nature Catalysis 2018, 1 (5), 339-348. (Highly Cited Paper)（Nebraska Today, May 15, 2018; Nature Catalysis News, May, 2018 ; Chemical & Engineering News, May 7, 2018 ）

3. Elouarzaki, K.; Cheng, D.; Fisher, A. C.; Lee, J.-M. *, Coupling orientation and mediation strategies for efficient electron transfer in hybrid biofuel cells. Nature Energy 2018, 3 (7), 574-581 (Nature Energy News & Views, June 4, 2018 ）.

4. Guo, M.; Ma, PJ.; Wang, JY.; Xu, HX.; Zhang, K.; Cheng, DJ.; Liu, YX.; Guo, GS.; Dai, HX.; Duan, EH.; Deng, JG.*; Synergy in Au-CuO Janus Structure for Catalytic Isopropanol Oxidative Dehydrogenation to Acetone. Angewandte Chemie International Edition 2022, 61.

5. Xu, H.; Xu, HX.*; Cheng, DJ.*, Resolving the Reaction Mechanism for Oxidative Hydration of Ethylene toward Ethylene Glycol by Titanosilicate Catalysts. ACS Catalysis 2022, 12, 9446-9457.

6. Cao, D. 1; Xu, H. 1; Cheng, D.*, Branch-leaf-shaped CuNi@NiFeCu nanodendrites as highly efficient electrocatalysts for overall water splitting. Applied Catalysis B: Environmental 2021, 298(5), 120600.

7. Cao, D.; Xu, H.; Cheng, D.*, Construction of Defect‐Rich RhCu Nanotubes with Highly Active Rh3Cu1 Alloy Phase for Overall Water Splitting in All pH Values. Advanced Energy Materials 2020, 10 (9), 1903038.

8. Huang, X.; Xu, X.; Li, C.; Wu, D.; Cheng, D.*; Cao, D. *, Vertical CoP Nanoarray Wrapped by N,P‐Doped Carbon for Hydrogen Evolution Reaction in Both Acidic and Alkaline Conditions. Advanced Energy Materials 2019, 9 (22).

9. Huang, Y.; Hu, J.; Xu, H.; Bian, W.; Ge, J.; Zang, D.; Cheng, D.*; Lv, Y.; Zhang, C.; Gu, J.; Wei, Y., Fine Tuning Electronic Structure of Catalysts through Atomic Engineering for Enhanced Hydrogen Evolution. Advanced Energy Materials 2018, 8 (24), 1800789.

10. Xu, H. #; Zhu, L. #; Nan, Y.; Xie, Y.; Cheng, D.*, Revisit the Role of Metal Dopants in Enhancing the Selectivity of Ag-Catalyzed Ethylene Epoxidation: Optimizing Oxophilicity of Reaction Site via Cocatalytic Mechanism. ACS Catalysis 2021, 11, 3371-3383.