Chemistry and Chemical Engineering
LI Weizhen
Title: Professor
Subject: Industrial Catalysis
Phone: 0411-84379738
Email: weizhenli@dicp.ac.cn
Website:
Research Interests
1. Synthesis and application of thermally stable small-sized precious metal catalysts

Supported platinum group metal catalysts are essential and are not readily substituted for many industrially important catalytic processes. Enhancement in the thermal stability of small-sized precious metal nanoparticles would be crucial to prolonging the catalyst life and minimizing the cost. We have developed a general strategy for preparing thermally stable nano, sub-nano, and even atomically dispersed precious metals by selecting spinel oxides with matching interfacial structure. Thermally stable precious metal catalysts are widely used in the fields of chemical conversion, environmental catalysis. For example, catalytic conversion of methane, catalytic combustion, automotive exhaust purification, and catalytic hydrazine decomposition, and etc. We’ll optimize the stable Rh, Ir and Pt catalysts for a specific reaction with high reactivity, selectivity, stability and low cost as well.

2. Structure-function relationship of model catalysts for probe reactions

Unlike homogenous catalysts with uniform molecular structure, supported solid catalysts usually have multiple microstructures, which together provide catalytic reactivity. Such integrated structure and reactivity information makes it difficult to establish accurate structure-function relationship in practice. We are trying to synthesize model catalyst with distinct active structures and quantities, and then test probe reactions with well-established mechanism and reaction rate equation for obtaining kinetic data. Furthermore, we want to get each kinetic parameter among the rate equation by simulating the real kinetic data. We can also obtain the activation energy for rate determining step and the heat of adsorption of reactants on active sites from the respective temperature dependence. Thus, it is possible to establish the structure-function relationship accurately in some model catalytic systems. We are interesting in supported transition metal oxide catalysts for selective oxidation of alcohols, supported precious metal catalysts for CO oxidation or water-gas shift reactions.

Biography
1. 2014 – Present Associate/Full Professor, Dalian Institute of Chemical Physics, CAS, China

2. 2010 – 2014 Post Doctorate Research Assistant, Pacific Northwest National Laboratory, USA

3. 2007 – 2010 Post Doctorate Research Assistant, Tsinghua University, China

4. 2002 – 2007 Ph. D. in Physical Chemistry, Peking University, China

5. 1998 – 2002 B. Sc. In Chemistry, Shandong University, China

Honors and Awards
 
Publications

1. Robust Ruthenium-Saving Catalyst for High-Temperature Carbon Dioxide Reforming of Methane. ACS Catalysis, 2020, 10 (1), 783-791.

2. Water-saving dry methanation for direct conversion of syngas to synthetic natural gas over robust Ni0.1Mg0.9Al2O4 catalyst, Journal of Catalysis, 2019, 375, 466-477.

3. Coke-resistant Au-Ni/MgAl2O4 catalyst for direct methanation of syngas, Journal of Energy Chemistry, 2019, 39, 198-207.

4. Crucial support effect on the durability of Pt/MgAl2O4 for partial oxidation of methane to syngas, Applied Catalysis B Environmental, 2018, 231, 292-298.

5. Exceptional anti-sintering gold nanocatalyst for diesel exhaust oxidation. Nano Letters, 2018, 18, 6489-6493.

6. Effect of group IB metals on the dehydrogenation of propane to propylene over anti-sintering Pt/MgAl2O4. Journal of Catalysis, 2018, 366, 115-126.