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Professor

    GUO Yanbing

    Chinese Version  (中文版)

    Resume

    Yanbing Guo received his Ph. D. degree from Institute of Chemistry Chinese Academy of Sciences (ICCAS), China in 2010. Since then he hadworked as postdoc, assistant research professor in University of Connecticut in US until 2016. From 2014 to 2015, He also worked as research affiliate in MassachusettsInstitute of Technology (MIT) Sloan Automotive Laboratory. In September 2016, he joined in college of chemistry, Central China Normal University as a full professor. Yanbing Guo’s current researches focused on Diesel engine emission control, VOC emission control and nanoscale environmental materials. He has published 38 peer-reviewed articles (including JACS, Angew. Chem. Int. Ed., Adv.Mater., Nano Energy) with more than 1200 citations and a h-index of 20. In 2016, he was selected into The Recruitment Program of Global Young Experts (National level) and “100 Talents Recruitment Plan” of Hubei Province.

    Research Fields and Interests

    1. Emission Control for Diesel Engine

    2. VOC Emission Control

    3. Nanoscale Environmental Materials

    Selected Publications

    1. Ren, Z.; Wu, Z. L.*; Song, W.; Xiao, W.;Guo,Y.*, Ding, J.; Suib, S.; Gao P.-X.* Low temperature propane oxidation over Co3O4 based nano-array catalysts: Ni dopant effect, reaction mechanism andstructure stability, Appl. Catal. B Environ. 2016, 180, 150-160.

    2.Guo, Y.; Xu, L.; Liu, H.; Li, Y.; Li, Y. Self-Assembly of Functional Molecules into 1D Crystalline Nanostructures. Adv. Mater. 2015, 27, 985-1013.

    3. Ren, Z.; Botu, V.; Wang, S.; Meng, Y.; Song, W.; Guo, Y.; Ramprasad, R.; Suib, S. L.; Gao, P. -X. Monolithically integrated spinel MxCo3-xO4(M=Co, Ni and Zn) nano-Array catalysts: scalable synthesis and cations manipulation for tunable low temperature CH4and CO oxidation. Angew. Chem. Int. Ed. 2014, 53, 7223-7227.

    4. Guo, Y.; Ren, Z.; Xiao, W.; Liu, C.; Sharma, H.; Gao, H.; Mhadeshwar, A.; Gao, P.-X. Robust 3-Dconfigurated metal oxide nano-array based monolithic catalysts with ultrahigh materials usage efficiency and catalytic performance tunability. Nano Energy 2013, 2, 873-881.

    5. Xiao, W.;Guo, Y.*; Ren, Z.; Wrobel, G.; Ren, Z.; Lu, T.; Gao, P. -X.* Mechanical-Agitation-Assisted Growth of Large-Scale and Uniform ZnO Nanorod Arrays within 3D Multichannel Monolithic Substrates. Cryst. Growth Des. 2013, 13, 3657–3664.

    6. Guo, Y.; Liu G., Ren, Z.; Piyadasa, A.; Gao, P. -X. Single crystalline brookite titanium dioxide nanorodarrays rooted on ceramic monoliths: a hybrid nanocatalyst support withultra-high surface area and thermal stability.Cryst. Eng. Comm. 2013, 15,8345-8352.

    7. Guo, Y.;Z hang,Y.; Liu, H.; Lai, S.-W.; Li, Y.; Li, Y.; Hu, W.; Wang, S.; Che, C.-M.; Zhu, D. Assembled Organic/Inorganic P-N Junction Interface and Photovoltaic Cell on Single Nanowire. J. Phys. Chem. Lett. 2010, 1, 327–330

    8. Liu, H.; Zuo, Z.; Guo, Y.; Li, Y.; Li, Y. Supramolecular Interactions on the Interface of Inorganic/Organic Hybrid Nanomaterials. Angew. Chem. Int. Ed. 2010, 49, 2705-2707.

    9. Li, G.; Li, Y.; Liu, H.;Guo, Y.; Li, Y.; Zhu, D. Architecture of graphdiyne nanoscale films. Chem. Comm. 2010, 46, 3256-3258.

    10.Guo, Y.; Tang,Q.; Liu, H.; Zhang, Y.; Li, Y.; Hu, W.; Wang, S.; Zhu, D. Light-Controlled Organic/Inorganic P-N Junction Nanowires. J. Am. Chem. Soc. 2008, 130, 9198–99199.

    Honors and Awards

    1. The Recruitment Program of Global Young Experts (knownas “the Thousand Talents Plan”)

    2. “100 Talents Recruitment Plan”of  Hubei Province

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