Prof. Hengshan Qiu
Personal information:
Nationality: Chinese Highest Degree: PhD
Date of Birth: 1978 Email: hsqiu@zzu.edu.cn
Current affiliation: Research Center of Heterogeneous Catalysis and Engineering Sciences, School of Chemical Engineering and Energy, Zhengzhou University
Education and research experience:
09.1998—07.2002 Bachelor, Department of physics, Tongji university, Shanghai, China
09.2002—07.2005 Master, Department of optical science and technology, Fudan university, Shanghai, China
Title of thesis: The temperature dependent structure and magnetism of ultrathin Ni/Fe/Cu(001) films (Prof. Qingyuan Jin)
10.2005—11.2009 Doctor, Department of physical chemistry I, Ruhr-University Bochum, Bochum, Germany
Title of thesis: Interaction of adsobates with clean and metal-covered oxide surfaces: Vibrational spectroscopic studies (Prof. Christof Wöll)
11.2009—01.2011 postdoc, Department of physical chemistry I, Ruhr-University Bochum, Bochum, Germany
Research topics: electronic doping effect of metals or non-metals in semiconductors (Prof. Martin Muhler and Dr. Yuemin Wang)
02.2011—04.2013, postdoc, Department of chemical physics, Fritz-Haber Institute, Berlin, Germany
Research topics: CO oxidation over Au/Fe2O3, mixed oxide, charge transfer between dopant and surface adsorbate ((Prof. Hans-Joachim Freund and Dr. Helmut Kuhlenbeck)
05.2013—12.2017, professor, Department of Environmental Science and Tehcnology, Xinjiang Institute of Physical and Chemistry, Chinese Academy of Sciences
01.2018—present, professor, Research Center of Heterogeneous Catalysis and Engineering Sciences, School of Chemical Engineering and Energy, Zhengzhou University
Honors and awards:
1) 2006-2009, IMPRS-SurMat Scholarship from max planck society.
2) 2008, Chinese government award for outstanding self-financed students abroad.
3) 2014, 1000-Talent Program (Recruitment Program of Global Expert).
4) 2014, Program of introduction of high-level talents in Xinjiang
Research interests:
My research interests are mainly focusing on fundamental research in the field of surface physical chemistry, including the surface science approach to heterogeneous catalysis, the fundamental physicochemical properties of metal oxide surfaces and the development of operando techniques. Experimental methods include HREELS, TDS, LEED/AES, UHV-NAP PMIR, NAP STM, NAP XPS etc.
Selected Publications:
1. H. Qiu*, H. Kuhlenbeck, E. Bauer, H. -J. Freund, Gold decorated biphase Fe2O3(0001): activation by CO induced surface reduction, J. Phys. Chem. C (In press, 2018)
2. X. Wang, B. Lu, L. Li, H. Qiu*, Exploring the interactions of oxygen with defective ZnO, ChemistryOpen 7, 491 (2018) (cover feature)
3. Y. Du, L. Li, X. Wang, H. Qiu*, A newly designed Infrared reflection absorption spectroscopy system for in situ characterization from ultrahigh vacuum to ambient pressure, Appl. Spectrosc. 72, 122 (2018)
4. M. Zhang, P. Li, Z. Tian, M. Zhu, F. Wang, J. Li, B. Dai, F. Yu*, H. Qiu*, H. Gao*, Clarification of active sites at interfaces between silica supported and nickel active components for carbon monoxide methanation, Catalysts8, 293 (2018)
5. H. Qiu, E. Bauer, V. Staemmler, H. Kuhlenbeck*, H. -J. Freund, Weak thermal reduction of biphase Fe2O3(0001) films grown on Pt(111): Sub-surface Fe2+ formation, Surf. Sci., 641, 30 (2015)
6. H. Noei, L. Jin, H. Qiu, M. Xu, Y. Gao, J. Zhao, M. Kauer, Ch. Wöll, M. Muhler, Y. Wang*, Vibrational spectroscopic studies on pure and metal-covered metal oxide surfaces, Phys. Status. Solidi B 250, 1204 (2013)
7. H. Qiu, F. Gallino, C. Di Valentin* and Y. Wang*, Shallow donor states induced by in-diffused Cu in ZnO: a combined HREELS and hybrid DFT study, Phys. Rev. Lett., 106, 066401 (2011)
8. H. Noei, H. Qiu, Y. Wang, M. Muhler, and Ch. Wöll*, Hydrogen Loading of Oxide Powder Particles: A Transmission IR Study for the Case of Zinc Oxide, Chem. Phys. Chem., 11, 3604 (2010)
9. H. Noei, H. Qiu, Y. Wang, E. Löffler, and Ch. Wöll*, The identification of hydroxyl groups on ZnO nanoparticles by infrared spectroscopy, Phys. Chem. Chem. Phys. 10, 7092 (2008).
10. H. Qiu, B. Meyer, Y. Wang, and Ch. Wöll*, Ionization energies of shallow donor states in ZnO created by reversible formation and depletion of H interstitials, Phys. Rev. Lett. 101, 236401 (2008). (highlighted by InternetChemistry)
11. H. Qiu, H. Idriss, Y. Wang, and C. Wöll*, Carbon-carbon bond formation on model titanium oxide surfaces: Identification of surface reaction intermediates by HREELS, J. Phys. Chem. C 112, 9828 (2008).
12. Y. Wang, X. Xia, A. Urban, H. Qiu, J. Strunk, B. Meyer, M. Muhler, and Ch. Wöll*, Tuning the reactivity of oxide surfaces by charge-accepting coadsorbates, Angew. Chem. Int. Ed. 46, 7315 (2007)
13. Y. Wang, R. Kovacik, B. Meyer, K. Kotsis, D. Stodt, V. Staemmler, H. Qiu, F. Traeger, D. Langenberg, M. Muhler, and Ch. Wöll*, CO2 activation by ZnO via formation of an unusual tridentate surface carbonate, Angew. Chem. Int. Ed. 46, 5624 (2007)