报告时间：2013年11月1日（星期五）上午9:30-10:30 

报告地点：能源基础楼（原膜中心楼）一楼会议室 

　　　　报告人：Dr. Zhen Zhang

Department of Chemistry, University of Virginia, USA 

　　报告摘要： 

　　The ions and neutral species can be desorbed from the solid surfaces by electronic excitation. We use the desorbed species as sensitive probes to detect the surface chemistry on metal oxides. Rutile TiO₂(110) has been chosen as a model oxide due to the wide applications of TiO₂ in the fields of photoelectronics and photocatalysis. In this presentation, three desorbed species from TiO₂(110) have been used as the probes: (1) O(lattice)+ ESD – A probe to study defect electron redistribution on TiO₂(110) surface by H₂O adsorption. (2) O(ad)+ ESD – A probe to study thermal chemistry on TiO₂(110) surface. (3) O₂ ESD – A probe to study photochemistry on TiO₂(110) surface.  

　　报告人简介： 

　　EDUCATION: 

　　Ph. D., Physical Chemistry, December 2007, 

　　State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics, the Chinese Academy of Sciences 

　　B.S., Chemistry, July 2001 

　　Department of Chemistry, Nanjing University, China 

　　RSEEARCH INTERESTS: 

　　Surface Science, Catalysis, Photocatalysis and Photochemistry, Metal Cluster, Metal 

　　Oxide, Electron-Stimulated Desorption, Photon-Stimulated Desorption 

　　RESEARCH EXPERIENCE:  

　　July 2011– present    Research Scientist 

　　March 2008 – July 2011   Research Associate 

　　Prof. John T. Yates group, Department of Chemistry, University of Virginia, USA 

　　l  ？ Electron-stimulated positive-ion desorption caused by charge transfer from adsorbate to substrate: oxygen adsorbed on TiO₂(110) 

　　l  ？ Unraveling the diffusion of bulk Ti interstitials in rutile TiO₂(110) by monitoring their reaction with O adatoms 

　　l  ？ Direct observation of surface-mediated electron-hole pair recombination in TiO₂(110) 

　　l  ？ Electron-mediated CO oxidation on the TiO₂(110) surface during electronic excitation 

　　l  ？ Band bending and photocatalysis/photochemistry 

　　l  ？ The behavior of H on the TiO₂(110) surface  

　　September 2001 – December 2007, Ph.D. student 

　　Prof. Xinhe Bao group, State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics, the Chinese Academy of Sciences 

　　Dissertation title: Construction and Characterization of Si(111)-7×7-Based Model Catalysts 

　　l  ？   Set up and maintained an Omicron multiprobe surface analysis system 

　　l  ？ Mastered surface analysis techniques such as XPS, UPS, ISS, HREELS, PEEM, and STM 

　　l  ？ Fabricated well-ordered metal nanoclusters (quantum dots) and nanofilms (quantum well films) on Si(111)-7×7 surfaces as the model catalysts 

　　l  ？ Studied chemisorption and catalytic reactions on model catalyst surfaces to understand the relationship between surface structure and catalytic activity 

　　l  ？ Prepared well-ordered silica and Ag films on Pd(100) surfaces 

　　August 2002 – June 2003, visiting student during Ph.D. 

　　Prof. Qikun Xue group, State Key Laboratory for Surface Physics, Institute of Physics, the Chinese Academy of Sciences 

　　l  ？ Mastered STM, MBE, UHV techniques 

　　l  ？ Fabricated site-specific and size-controllable Ag nanoclusters on Al/Si(111) surfaces