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曾適之

鎖定
牛津大學化學系教授,1962年7月生於中國香港。現主要從事新化合物和材料在多相催化、傳感器與生物醫藥中的應用研究,尤其是在納米傳感器、生物載體以及能源環境領域的高效催化劑等等方面探尋先進無機材料(納米結構材料、富勒烯、碳納米管、碳纖維、介孔材料、分子篩、複合金屬氧化物等)的應用,其中,在燃料電池氫和甲醇氧化催化劑、儲氫材料、催化制氫、CO2活化製備新能源物質、精細化工催化等方面取得了卓有成效的進展。在包括Nature、Adv. Mater.、Angew. Chem. Int. Ed.、 JACS等二十餘種國際學術期刊發表論文140餘篇,被引用超過2800次。主要研究方向為功能材料與催化。2008.3起,武漢大學化學與分子科學學院教授。
中文名
曾適之
出生地
中國香港
出生日期
1962年7月
職    稱
教授

曾適之工作經歷

1984-1987,大學本科就讀於Hong Kong Polytechnic University化工系,後期赴英國倫敦大學Birkbeck學院攻讀化學專業的研究生學位;
1987-1990,英國雷丁大學獲得博士學位,研究方向是固體化學與催化,從事甲烷催化氧化偶聯反應研究。
1990.8-1995.10,牛津大學博士後,Departmental Fellow,先進材料與催化研究中心負責人;
1995.10-2007.8,英國雷丁大學(University of Reading)講師、Reader、教授,研究方向是納米材料與催化,表面與催化研究中心主任;
2007.9至今,牛津大學化學系Wolfson催化研究中心教授,主任;

曾適之主要貢獻

長期致力於與能源和環境問題密切相關的多相催化研究,在能量儲存(燃料電池、儲氫)、化工節能減排、新能源化工、CO2儲存與催化轉化及功能催化材料製備等方面取得了卓有成效的進展。過去十年主持科研項目經費超過600萬英鎊,已在Nature、Science、Nature Nanotechnology、Nature Communication、Angew. Chem. Int. Ed.、JACS、Adv. Mater.等國際學術期刊發表論文220餘篇,被引用超過6400次;並擁有16項發明專利。現為英國化學工程師協會(IChemE)催化學科委員、英國自然科學基金委(EPSRC)大學聯盟委員、催化學科委員;國際催化領域知名期刊ChemCatChem和Catalysis Today編委。榮獲2012年RSC Green Chemistry Award(英國皇家化學會綠色化學獎)、和2013年RSC Surfaces & Interfaces Award(英國皇家化學會表面與界面科學獎)。 [1] 
代表性成果
1.Non-syngas direct steam reforming of methanol to hydrogen and carbon dioxide at low temperature, Kai Man Kerry Yu, Weiyi Tong, Adam West, Kevin Cheung, Tong Li, George Smith, Yanglong Guo and Shik Chi Edman Tsang, Nature Communications, 2012, 3:1230. DOI: 10.1038/ncomms2242.
2.Prominent Electronic and Geometric Modifications of Palladium Nanoparticles by Polymer Stabilizers for Hydrogen Production under Ambient Conditions, Simon Jones, Jin Qu, Karaked Tedsree, Xue-Qing Gong and Shik Chi Edman Tsang, Angew. Chem. Int. Ed., 17 SEP 2012. DOI: 10.1002/anie.201206035.
3. A Non-syn-gas Catalytic Route to Methanol Production,Cheng-Tar Wu,Kai Man Kerry Yu,Fenglin Liao, Neil Young,Peter Nellist,Andrew Dent, Anna Kroner and Shik Chi Edman Tsang, Nature Communications, 2012, 3:1050. DOI: 10.1038/ncomms2053.
4. Comparison of Catalytic Performance of Supported Ruthenium and Rhodium for Hydrogenation of 9-ethylcarbazole for Hydrogen Storage Applications, Katarzyna Morawa Eblagon, Kin Tam and Shik Chi Edman Tsang, Energy Environ. Sci., 2012, 5, 8621-8630. DOI:10.1039/C2EE22066K.
5.Electron Promotion by Surface Functional Groups of Single Wall Carbon Nanotubes to Overlying Metal Particles in a Fuel-Cell Catalyst, Patraporn Luksirikul, Karaked Tedsree, Mark G. Moloney, Malcolm L. H. Green, Shik Chi Edman Tsang,Angew. Chem. Int. Ed., 2012, 51, 6998-7001. DOI: 10.1002/anie.201200903.
6.Electronic Modulation of Cu-ZnO Catalyst by Heterojunction Establishment for Selective Hydrogenation of CO2to CH3OH, Fenglin Liao, Ziyan Zeng, Clive Eley, Qin Lu, Xinlin Hong, Shik Chi Edman Tsang, Angew. Chem. Int. Ed.(VIP). 2012, 51, 5832-5836. DOI: 10.1002/anie.201200903.
7.Shape-Dependent Acidity and Photocatalytic Activity of Nb2O5Nanocrystals with Active TT (001) Surface,Yun Zhao, Clive Eley, Jingping Hu, John S Foord, Lin Ye, Heyong He and Shik Chi Edman Tsang, Angew. Chem. Int. Ed.(HOT). 2012, 51, 3846-3849. DOI: 10.1002/anie.201108580.
8.Rational Design of Nano-catalysts via Chemisorption Evaluation in Liquid Phase, Karaked Tedsree, Chun Wong Aaron Chan, Simon Jones, Qian Cuan, Wei-Kun Li, Xue-Qing Gong and Shik Chi Edman Tsang, Science, 2011, 332, 224-228.
9.Hydrogen Production for Portable Fuel Cells from Formic Acid Decomposition over Ag Core-Pd Shell Nano-catalyst at Room Temperature, Karaked Tedsree, Tong Li, Simon Jones, Chun Wong Aaron Chan, Kai Man Kerry Yu, Paul Bagot, Emmanuelle Marquis, George Smith and Shik Chi Edman Tsang, Nature Nanotechnology,Published Online: 10 April 2011, DOI: 10.1038/NNANO.2011.42.
10.Morphology Dependent Interactions of ZnO with Cu Nanoparticles at Materials Interface In Selective Hydrogenation of CO2to CH3OH,Fenglin Liao, Yaqun Huang, Junwei Ge, Weiran Zheng, Karaked Tedsree, Paul Collier, Xinlin Hong and Shik Chi Tsang, Angew. Chem. Int. Ed., 2011, 50, 2162-2165.(VIP communication paper in Angewandte Chemie)
11.Cr-MnOxmixed-oxide catalysts for selective catalytic reduction of NOxwith NH3at low temperature, Zhihang Chen, Qing Yang, Hua Li, Xuehui Li, Lefu Wang, Shik Chi Tsang, Journal of Catalysis, 2010, 276, 56–65.
12. Formate as a Surface Probe for Ruthenium Nanoparticles in Solution C NMR Spectroscopy, Karaked Tedsree, Adam T. S. Kong, Dr., Shik Chi Tsang, Prof., Angew. Chem. Int. Ed., 2009, 48, 1443-1446. (VIP communication paper in Angewandte Chemie)
13.Shape and Size Effects of ZnO Nanocrystals on Photocatalytic Activity, Anna McLaren, Teresa Valdes-Solis, Guoqiang Li; Shik Chi Tsang, Journal of the American Chemical Society, (2009), 131(35), 12540-12541.
14.Recent Advances in CO2Capture and Utilization Minireview, K.M.K. Yu, I. Curcic, J. Gabriel, S.C. Tsang, ChemSusChem., (2008), 1, 893-899.
15.A practical demonstration of the "junction effect" theory in the reduction of ceria coated PGM catalysts, Nadia Acerbi, Shik Chi Tsang, Stan Golunski and Paul Collier, Chem. Commun. (2008), 13, 1578-1580.
16.Engineering Preformed Cobalt-Doped Platinum Nanocatalysts For Ultraselective Hydrogenation, Shik Chi Tsang, Nick Cailuo, William Oduro, Adam T.S. Kong, L. Clifton, K.M. Kerry Yu, Benedicte Thiebaut, James Cookson, Peter Bishop, ACS Nano, (2008), 2 (12), 2547-2553.
17.Carbon Dioxide Fixation into Chemicals (Methyl Formate) at High Yields By Surface Coupling Over Pd/Cu/ZnO NanoCatalyst, K. M. Kerry Yu, Connie M. Y. Yeung and Shik Chi Tsang, Journal of the American Chemical Society (2007), 129(20) 6360-6361. (ranked the top three most accessed article in JACS in Q2 of 2007.)
18.Chemically Immobilized Single Stranded Oligonucleotide On Praseodymium Oxide Nanoparticle As Non-labeled DNA Sensor Probe Using Impedance, S. Shrestha, C. M. Y. Yeung, C. E Mills, J. Lewington, and S.C. Tsang, Angew. Chem. Int. Ed.,2007, 46, 3855-3859.
19.Synthesis and Fabrication of A Thin Film Containing Silica Encapsulated Face-Centered Tetragonal FePt Nanoparticles, Chih Hao Yu, Nick Cailuo, Chester C. H. Lo, Kin Tam, and Shik Chi Tsang, Advanced Materials, (2006), 18 (17) 2312 - 2314.
20.Engineering Pt in Ceria for a Maximum Metal-Support Interaction in Catalysis, C. M. Y. Yeung, K. M. K. Yu, Q. J. Fu, D. Thompsett, M. I. Petch, S.C. Tsang, Journal of the American Chemical Society (2005), 127 (51) 18010-18011. (highlighted by Science, (2005) 310, Issue 5756, 23 Dec.)
21.Magnetically Separable, Carbon-Supported Nanocatalysts for the Manufacture of Fine Chemicals, S.C. Tsang, V. Caps, I. Paraskevas, D. Chadwick, D. Thompsett, Angew. Chem. Int. Ed. (2004), 43 (42) 5645-5649.
22.A Simple Method of Opening and Filling Carbon Nanotubes, S.C. Tsang, Y.K. Chen, P.J.F. Harris and M.L.H. Green, Nature, 1994, 372, 159-162.
23.Thinning and opening of carbon nanotubes by oxidation using carbon dioxide, S. C. Tsang, P. J. F. Harris, M. L. H. Green, Nature, 1993, 362, 520-522. [2] 
參考資料