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  • 劉志

    時間:2018-03-01瀏覽:3595設置

    劉志課題組介紹


    課題組長
    劉志,副院長、正教授
    通訊地址:
    電子郵件:liuzhi@@shanghaitech.edu.cn 

    畢業于北京大學地球物理系/物理系,美國斯坦福大學獲電子工程碩士與物理學博士。2005 年后在斯坦福大學和斯坦福線性加速器中心擔任助理研究員,2007 年起在美國勞倫斯伯克利國家實驗室先后擔任Staff Scientist新浪大乐透走势图,Career Staff Scientist,主持原位光電子能譜研究工作。SCI期刊上發表論文170多篇,引用4700余次?,F任上??萍即髮W物質學院副院長;上??萍即髮W、中科院上海微系統研究所、上海光源國家科學中心學術委員會委員;任Scientific Reports等雜志的編委;現主持國家重大科技基礎設施“活細胞結構與功能成像等線站工程”和國家重大科研儀器設備研制專項“基于上海同步輻射光源的能源環境新材料原位電子結構綜合研究平臺(SiP?ME2)研制”。


    掃二維碼新浪大乐透走势图,關注APXPS組的最新進展。



    研究介紹
    主要從事同步輻射譜學及其他相關技術的應用研究新浪大乐透走势图。特別是利用近常壓光電子能譜對材料表界面的原位表征測量。

    課程教學

    承擔《光子科學及其在表面科學中的應用》的教學任務。

    2014-2016 《同步輻射及其在表面科學中的應用》 2學分

    2017《光子科學及其在表面科學中的應用》 3學分


    發表文章
    近期部分科研成果(*通訊作者或共同通訊作者):
    1.Zhu, Y. F. et al. Role of Manganese Oxide in Syngas Conversion to Light Olefins. ACS Catal. 7, 2800-2804, doi:10.1021/acscatal.7b00221 (2017).
    2.* Mao, B.-H. et al. In situ study of the electronic structure of atomic layer deposited oxide ultrathin films upon oxygen adsorption using ambient pressure XPS. Catalysis Science & Technology 6, 6778-6783, doi:10.1039/c6cy00575f (2016).
    3.* Favaro, M. et al. Unravelling the electrochemical double layer by direct probing of the solid/liquid interface. Nature Communications 7, doi:10.1038/ncomms12695 (2016).
    4.* Eriksson, S. K. et al. In-Situ Probing of H2O Effects on a Ru-Complex Adsorbed on TiO2 Using Ambient Pressure Photoelectron Spectroscopy. Topics in Catalysis 59, 583-590, doi:10.1007/s11244-015-0533-3 (2016).
    5.* Bernardi, F. et al. Control of the surface atomic population of Rh0.5Pd0.5 bimetallic nanoparticles supported on CeO2. Catal. Today 260, 95-99, doi:10.1016/j.cattod.2015.06.024 (2016).
    6.Zhang, Y. et al. Hexagonal Boron Nitride Cover on Pt(111): A New Route to Tune Molecule-Metal Interaction and Metal-Catalyzed Reactions. Nano Lett. 15, 3616-3623, doi:10.1021/acs.nanolett.5b01205 (2015).
    7.* Lichterman, M. F. et al. Direct observation of the energetics at a semiconductor/liquid junction by operando X-ray photoelectron spectroscopy. Energy Environ. Sci. 8, 2409-2416, doi:10.1039/c5ee01014d (2015).
    8.* Karslioglu, O. et al. Aqueous solution/metal interfaces investigated in operando by photoelectron spectroscopy. Faraday Discussions 180, 35-53, doi:10.1039/c5fd00003c (2015).
    9.* Crumlin, E. J. et al. X-ray spectroscopy of energy materials under in situ/operando conditions. Journal of Electron Spectroscopy and Related Phenomena 200, 264-273, doi:10.1016/j.elspec.2015.06.008 (2015).
    10.* Axnanda, S. et al. Using Tender X-ray Ambient Pressure X-Ray Photoelectron Spectroscopy as A Direct Probe of Solid-Liquid Interface. Scientific Reports 5, doi:10.1038/srep09788 (2015).
    11.* Mao, B.-H. et al. A near ambient pressure XPS study of subnanometer silver clusters on Al2O3 and TiO2 ultrathin film supports. Physical Chemistry Chemical Physics 16, 26645-26652, doi:10.1039/c4cp02325k (2014).
    12.* Liu, X., Yang, W. & Liu, Z. Recent Progress on Synchrotron-Based In-Situ Soft X-ray Spectroscopy for Energy Materials. Advanced Materials 26, 7710-7729, doi:10.1002/adma.201304676 (2014).
    13.* Yu, Y. et al. CO2 activation and carbonate intermediates: an operando AP-XPS study of CO2 electrolysis reactions on solid oxide electrochemical cells. Physical Chemistry Chemical Physics 16, 11633-11639, doi:10.1039/c4cp01054j (2014).
    14.Yao, Y. et al. Graphene cover-promoted metal-catalyzed reactions. Proceedings of the National Academy of Sciences of the United States of America 111, 17023-17028, doi:10.1073/pnas.1416368111 (2014).
    15.Scheele, M. et al. PbS Nanoparticles Capped with Tetrathiafulvalenetetracarboxylate: Utilizing Energy Level Alignment for Efficient Carrier Transport. Acs Nano 8, 2532-2540, doi:10.1021/nn406127s (2014).
    16.* Dejoie, C. et al. Learning from the past: Rare epsilon-Fe2O3 in the ancient black-glazed Jian (Tenmoku) wares. Scientific Reports 4, doi:10.1038/srep04941 (2014).
    17.* Axnanda, S. et al. In Situ Characterizations of Nanostructured SnOx/Pt(111) Surfaces Using Ambient-Pressure XPS (APXPS) and High-Pressure Scanning Tunneling Microscopy (HPSTM). Journal of Physical Chemistry C 118, 1935-1943, doi:10.1021/jp409272j (2014).
    18.Zhu, Z. et al. Structure and Chemical State of the Pt(557) Surface during Hydrogen Oxidation Reaction Studied by in Situ Scanning Tunneling Microscopy and X-ray Photoelectron Spectroscopy. Journal of the American Chemical Society 135, 12560-12563, doi:10.1021/ja406497s (2013).
    19.* Zhang, C. et al. Mechanistic Studies of Water Electrolysis and Hydrogen Electro-Oxidation on High Temperature Ceria-Based Solid Oxide Electrochemical Cells. Journal of the American Chemical Society 135, 11572-11579, doi:10.1021/ja402604u (2013).
    20.Starr, D. E., Liu, Z., Haevecker, M., Knop-Gericke, A. & Bluhm, H. Investigation of solid/vapor interfaces using ambient pressure X-ray photoelectron spectroscopy. Chemical Society Reviews 42, 5833-5857, doi:10.1039/c3cs60057b (2013).
    21.* Mao, B.-H. et al. In situ characterization of catalytic activity of graphene stabilized small-sized Pd nanoparticles for CO oxidation. Applied Surface Science 283, 1076-1079, doi:10.1016/j.apsusc.2013.07.078 (2013).
    22.* Mao, B.-H. et al. Oxidation and reduction of size-selected subnanometer Pd clusters on Al2O3 surface. Journal of Chemical Physics 138, doi:10.1063/1.4807488 (2013).
    23.* Yu, Y. et al. Carbon deposits and Pt/YSZ overpotentials in CO/CO 2 solid oxide electrochemical cells. ECS Transactions 57, 3119-3126, doi:10.1149/05701.3119ecst (2013).Liu, X. et al. Distinct charge dynamics in battery electrodes revealed by in situ and operando soft X-ray spectroscopy. Nature Communications 4, doi:10.1038/ncomms3568 (2013).
    24.* Axnanda, S. et al. Direct Work Function Measurement by Gas Phase Photoelectron Spectroscopy and Its Application on PbS Nanoparticles. Nano Lett. 13, 6176-6182, doi:10.1021/nl403524a (2013).
    25.Butcher, D. R. et al. Mobility on the reconstructed Pt(100)-hex surface in ethylene and in its mixture with hydrogen and carbon monoxide. Chemical Communications 49, 6903-6905, doi:10.1039/c3cc42312c (2013).
    26.* Crumlin, E. J., Bluhm, H. & Liu, Z. In situ investigation of electrochemical devices using ambient pressure photoelectron spectroscopy. Journal of Electron Spectroscopy and Related Phenomena 190, 84-92, doi:10.1016/j.elspec.2013.03.002 (2013).
    27.Chen, X. et al. Properties of Disorder-Engineered Black Titanium Dioxide Nanoparticles through Hydrogenation. Scientific Reports 3, doi:10.1038/srep01510 (2013).
    28.Blomberg, S. et al. In Situ X-Ray Photoelectron Spectroscopy of Model Catalysts: At the Edge of the Gap. Phys. Rev. Lett. 110, doi:10.1103/PhysRevLett.110.117601 (2013).

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