个人简历

林旭锋，男，博士，教授，博士生导师；任教于中国石油大学（华东）理学院化学系。 \r
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教育经历：\r
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2003/9 - 2007/9，香港大学，物理化学，博士，导师：Prof. David L. Phillips\r
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2000/9 - 2003/7，厦门大学，物理化学，硕士，导师：田中群院士\r
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1996/9 - 2000/7，厦门大学，化学，学士\r
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工作经历：\r
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2016/1-至今，中国石油大学（华东），理学院化学系，教授\r
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2009/9 -2015/12，中国石油大学（华东），理学院化学系（2011年前为化学化工学院化学系），副教授\r
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2007/10-2009/08，西北大学（美国），催化中心（能源过程的催化研究所），博士后

研究领域

主要从事与石油、天然气、生物质等碳基能源原料增值转化以及与节能、环保过程相关的纳米催化剂制备、催化性能与反应机理的理论与实验研究""

近期论文

2016~present\r
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(1) SiO2-Modified Pt/Al2O3 for Oxidative Dehydrogenation of Ethane: A Preparation Method for Improved Catalytic Stability, Ethylene Selectivity, and Coking Resistance\r
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Yanyan Xi, Jianmei Xiao, Xufeng Lin*, Weining Yan, Chuangye Wang, Chenguang Liu\r
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Industrial & Engineering Chemistry Research 2018,57,10137-10147\r
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(2) Surface concentration or surface excess, which one dominates the surface tension of multicomponent mixtures?\r
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Chuangye Wang, Xueling, Wang, Feng Liu, Zhiyang Jiang, Xufeng Lin\r
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Coll. Poyl. Sci. 2018, 296, 89-93.\r
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(3) Methane activation on nickel oxide clusters with a concerted mechanism: a density functional theory study of the effect of silica support\r
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Yanyan Xi, Bili Chen, Xufeng Lin*, Chuangye Wang, Hui Fu\r
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J. Mol. Model.2016, 22, R79.\r
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(4) The substituent effect of the pentafluorophenyl groups on ruthenium- porphyrin- catalyzed intramolecular amidation of sulfamate ester: A DFT study\r
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Xufeng Lin*, Bili Chen, Yanyan Xi, Chuangye Wang, Hui Fu\r
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Comp. Theo. Chem.2016, 1080, 1-9.\r
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(5) The effect of a silica support: a density functional theory study of the C-H bond activation of ethane on a nickel oxide cluster\r
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Xufeng Lin*, Bili Chen, Yanyan, Xi, David L. Phillps, Wenyue Guo\r
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J. Phys. Org. Chem. 2016, 29, 134-144.\r
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(6) A density functional theory study on the effect of silica support: Methane activation on nickel oxide clusters through a radical mechanism\r
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Yanyan Xi, Bili Chen, Xufeng Lin*, Hui Fu, Chuangye Wang\r
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Comp. Theo. Chem.2016, 1076, 65-73.\r
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(7) Surface structure of aqueous ionic surfactant solutions and effects of solvent therein-a computer simulation study\r
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Chuangye Wang, Zhiyang Jiang, Ling Xu, Aiting Kan, Hui Fu, Xufeng Lin,\r
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Coll. Poly. Sci. 2016, 294,575-581.\r
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2011-2015\r
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(1) Molecular structure of ionic surfactant solution surface and effects of counter-ion therein-a joint investigation by simulation and experiment\r
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Chuangye Wang, Yajie, Tan, Zhiyang Jiang, Xufeng Lin, Songqing Hu,\r
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Coll. Poly. Sci. 2015, 293,3479-3486.\r
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(2) Using neutral impact collision ion scattering spectroscopy and angular resolved X-ray photoelectron spectroscopy to analyze surface structure of surfactant solutions\r
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Chuangye Wang, Aiting Kan, Zhen Liu, Guodong Zhang, Xufeng Lin, Hui Fu,\r
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Coll. Poly. Sci. 2015, 293,1655-1666.\r
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(4) A reaction mechanism of methane coupling on a silica supported single-site tantalum catalyst\r
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X. F. Lin*, Y. Y. Xi. G. D. Zhang. D. L. Phillips, W. Y. Guo\r
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Organometallics, 2014, 33, 2172−2181.\r
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(5) Hydrogenolysis of Glycerol by the Combined Use of Zeolite and Ni/Al2O3 as Catalysts: A Route for Achieving High Selectivity to 1‑ropanol\r
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X. F. Lin*, Y. H. Lv, Y. Y. Xi, Y. Y. Qu, D. L. Phillips, C. G. Liu\r
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Energy & Fuels, 2014, 28, 3345−3351.\r
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(6) Alumina-supported Fe catalyst prepared by vapor deposition and its catalytic performance for oxidative dehydrogenation of ethane\r
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L. Y. Xu, X. F. Lin*, Y. Y. Xi, X. M. Lu, C. G. Liu\r
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Materials Research Bulletin, 2014, 59, 254-260.\r
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(7) Acid catalyzed first dehydration of glycerol at the secondary site: the effect of glycerol conformation\r
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X. F. Lin*, Y. Y. Qu, Y. Y. Xi, C. G. Liu,\r
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Journal of Theoretical and Computational Chemistry, 2014, 13, 1450016-1~1450016-15.\r
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(8) Controllable synthesis of ZnxCd1-xS nanowires with tunable optical properties\r
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X. F. Lin, Y. Y. Xi, D. L. Lin\r
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Acta Phys. -Chim. Sin. 2014, 30, 576-582.\r
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(9) A combined experimental and computational study on the catalytic dehydration of glycerol on microporous zeolites: An investigation of the reaction mechanism and acrolein selectivity\r
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X. F. Lin*, Y. H. Lv, Y. Y. Qu, G. D. Zhang, Y. Y. Xi, D. L. Phillips, C. G. Liu,\r
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Phys. Chem. Chem. Phys., 2013, 15, 20120.\r
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(10) The first dehydration and the competing reaction pathways of glucose homogeneously and heterogeneously catalyzed by acids\r
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X. F. Lin*, Y. Y. Qu, Y. H. Lv, Y. Y. Xi, D. L. Phillips, C. G. Liu,\r
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Phys. Chem. Chem. Phys., 2013, 15, 2967.\r
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(11) Unraveling the reaction mechanism for nickel-catalyzed oxidative dehydrogenation of ethane by DFT: The C-H bond activation step and its following pathways\r
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X. F. Lin*, Y. Y. Xi, J. Sun,\r
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J. Phys. Chem. C, 2012, 116, 3503.\r
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(12) A computational study on the competing intramolecular amidation and aziridination reactions catalyzed by dirhodium tetracarboxylate\r
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X. F. Lin*, Y. Y. Xi, J. Sun\r
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Computational and Theoretical Chemistry, 2012, 999, 74.\r
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(13) Theoretical study on the hypervalent lambda(3)-bromane strategy for Baeyer-Villiger oxidation of benzaldehyde and acetaldehyde: rearrangement mechanism\r
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H. Fu, S. W. Xie, A. P. Fu, X. F. Lin, H. Zhao, T. X. Ye,\r
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Organic and Biomolecular Chemistry, 2012, 10, 6333.\r
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(14) Computational interpretation of the stereoselectivity for a dirhodium tetracarboxylate- catalyzed amidation reaction\r
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X. F. Lin*, J. Sun, Y. Y. Xi, Bo Pang,\r
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Computational and Theoretical Chemistry, 2011, 963, 284.\r
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(15) How racemic secondary alkyl electrophiles proceed to enantioselective products in Negishi cross-coupling reactions\r
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X. F. Lin*, J. Sun, Y. Y. Xi, D. L. Lin\r
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Oragnometallics, 2011, 30, 3284.\r
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2010 and before\r
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(1) Oxidative dehydrogenation of ethane with oxygen catalyzed by K-Y zeolite supported first-row transition metals\r
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X. F. Lin, K. R. Poeppelmeier, E. Weitz,\r
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Applied catalysis A-General, 2010, 381, 114.\r
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(2) Oxidative dehydrogenation (ODH) of ethane with O2 as oxidant on selected transition metal-loaded zeolites\r
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X. F. Lin, C. A. Hoel, W. M. H. Sachtler, K. R. Poeppelmeier, E. Weitz,\r
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Journal of Catalysis, 2009, 265, 54.\r
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(3) A DFT Study on the Mechanism of Rh2(II,II)-Catalyzed Intramolecular Amination of Carbamates\r
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X. F. Lin, C. Y. Zhao, C. M. Che, Z. F. Ke, D. L. Phillips,\r
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Chem. Asian J.2007, 2, 1101.\r
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(4) Surface-enhanced Raman scattering in the ultraviolet spectral region: UV-SERS on rhodium and ruthenium electrodes\r
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B. Ren, X. F. Lin, Z. L. Yang, G. K. Liu, R. F. Aroca, B. W. Mao, Z. Q. Tian,\r
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J. Am. Chem. Soc. 2003, 125, 9598.\r
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(5) Electrochemical and surface-enhanced Raman spectroscopic studies on the adsorption and electrooxidation of C1 molecules on a roughened Rh electrode\r
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X. F. Lin, B. Ren, Z. Q. Tian,\r
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J. Phys. Chem. B2004, 108, 981.\r
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(6) Reaction mechanism and stereoselectivity of ruthenium-Porphyrin-catalyzed intramolecular amidation of sulfamate ester: A DFT computational study\r
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X. F. Lin, C. M. Che, D. L. Phillips,\r
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J. Org. Chem., 2008, 73, 529.\r
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(7) Density functional theory study of water-assisted deprotonation of the C8- intermediate in the reaction of the 2-Fluorenylnitrenium ion with guanosine to form a C8 adduct\r
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Z. Guo, X. F. Lin, C. Y. Zhao, D. L. Phillilps,\r
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Journal of Molecular Structure- Theochem, 2008, 848, 119.\r
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(8) Density functional theory studies of negishi alkyl-alkyl cross-coupling reactions catalyzed by a methyiterpyridyl-Ni(I) complex,\r
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X. F. Lin, D. L. Phillips,\r
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J. Org. Chem., 2008, 73, 3680\r
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(9) Modeling SN2 reactions in methanol solution by ab initio calculation of nucleophile solvent-substrate clusters\r
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X. F. Lin, C. Y. Zhao, D. L. Phillips,\r
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J. Org. Chem., 2005, 70, 9279.\r
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(10) Water-catalyzed O-H Insertion/HI elimination reactions of isodihalomethanes (CH2X-I, where X = Cl, Br, I) with water and the dehalogenation of dihalomethanes in water-solvated environments\r
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X. F. Lin, X. G. Guan, W. M. Kwok. C. Y. Zhao, Y. Du, Y. L. Li, D. L. Phillips,\r
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J. Phys. Chem. A , 2005, 109, 981.\r
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(11) Water-catalyzed dehalogenation reactions of the isomer of CBr4 and its reaction products and a comparison to analogous reactions of the isomers of di- and trihalomethanes\r
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C. Y. Zhao, X. F. Lin, W. M. Kwok, X. G. Guan, Y. Du, D. Q. Wang, K. F. Hung, D. L. Phillips,\r
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Chem. Euro. J., 2005, 11, 1093.\r
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(12) An ab initio study of the reactions of CH2X-X (X = Cl, Br, I)isopolyhalomethanes with nCH3OH\r
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X. F. Lin, C. Y. Zhao, D. L. Phillips,\r
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Molecular Simulation, 2005, 31, 483.\r
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(13) Ab initio investigation of the O-Y (Y = CH3, H) insertion/HI elimination reactions of CH2I-I with CH3OH and H2O: comparison of methanol and water catalyzed reactions\r
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X. F. Lin, C. Y. Zhao, D. L. Phillips,\r
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Chem. Phys. Lett.2004, 397, 488.\r
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(14) Ultraviolet photolysis of CH2I2 in methanol: O-H insertion and HI elimination reactions to form a dimethoxymethane product\r
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X. G. Guan, X. F. Lin, W. M. Kwok, Y. Du, Y. L. Li, C. Y. Zhao, D. Q. Wang, D. L. Phillips\r
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J. Phys. Chem. A 2005, 109, 1247\r
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(15) Surface-enhanced Raman spectroscopy with ultraviolet excitation\r
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X. F. Lin, B. Ren, Z. L. Yang, G. K. Liu, Z. Q. Tian,\r
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J. Raman Spectrosc.2005, 36, 606.\r
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(16) Electrochemically roughened rhodium electrode as a substrate for surface-enhanced Raman spectroscopy\r
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B. Ren, X. F. Lin, J. W. Yan, B. W. Mao, Z. Q. Tian,\r
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J. Phys. Chem. B2003, 107, 899.\r
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(17) Optimizing detection sensitivity on surface-enhanced Raman scattering of transition-metal electrodes with confocal Raman microscopy\r
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B. Ren, X. F. Lin, Y. X. Jiang, P. G. Cao, Y. Xie, Q. J. Huang, Z. Q. Tian,\r
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Appl. Spectrosc. 2003, 57, 419.\r
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(18) An investigation of the adsorption of pyrazine and pyridine on nickel electrodes by in situ surface-enhanced Raman spectroscopy\r
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Q. J. Huang, X.F.Lin, Z. L. Yang, J. W. Hu, Z. Q. Tian,\r
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J. Electroanal. Chem.2004, 563, 121.\r
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(19) Probing different adsorption behavior of CO on Pt at solid/liquid and solid/gas interfaces by Raman spectroscopy with a three-phase Raman cell\r
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B. Ren, L. Cui, X. F. Lin, Z. Q. Tian,\r
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Chem. Phys. Lett.2003, 376, 130.\r
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(20) Surface-enhanced Raman scattering from transition metals with special surface morphology and nanoparticle shape\r
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Z. Q. Tian, Z. L. Yang, B. Ren, J. F. Li, Y. Zhang, X. F. Lin, J. W. Hu, D. Y. Wu,\r
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Faraday Discussions2006, 132, 159\r
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(21) Confocal microprobe Raman spectroscopy for investigating the electrochemical interface\r
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B. Ren, F. M. Liu, X. F. Lin, Z. Q. Tian,\r
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Chin. J. Electrochem.2001, 7, 41\r
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(22) Rh as a Ubiquitous Substrates for surface enhanced Raman spectroscopy\r
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B. Ren, X. F. Lin, Z. Q. Tian,\r
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Chin. J. Electrochem.2001, 7, 55\r
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(23) In situ Raman spectroscopic studies on the reduction of the surface oxides of rhodium at solid/liquid and solid/gas interfaces\r
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X. F. Lin, B. Ren, Y. Y. Liao, W.Y. Hu, Z. Q. Tian,\r
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Chin. J. Light Scattering2002, 14, 111.