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英国留学 | 利物浦大学招收CSC公派博士生,2018年秋季入学

课题组主要研究方向:等离子体协同催化用于化工环境和能源领域的应用,如废气处理,甲烷活化,二氧化碳转化和利用,生物质气化焦油重整,重油转化等
课题组主页 (请搜索Dr Xi TU University of Liverpool)

代表论文
L. Wang, Y. H. Yi, H. C. Guo, X. Tu*, Atmospheric pressure and room temperature synthesis of methanol through plasma-catalytic hydrogenation of CO2, ACS Catalysis 2018, 8, 90-100.

Y. X. Zeng, L. Wang, C. F. Wu, J. Q. Wang, B. X. Shen, X. Tu*, Low temperature reforming of biogas over K-, Mg- and Ce-promoted Ni/Al2O3 catalysts for the production of hydrogen rich syngas: Understanding plasma-catalytic synergy, Applied Catalysis B: Environmental, 2018, 224, 469-478.

L. Wang, Y. H. Yi, C. F. Wu, H. C. Guo, X. Tu*, One-step reforming of CO2 and CH4 to high-value liquid chemicals and fuels at room temperature by plasma-driven catalysis, Angewandte Chemie International Edition, 2017, 56, 13679-13683.

X. Zhu, S. Zhang, Y. Yang, C. Zheng, J. Zhou, X. Gao, X. Tu*, Enhanced performance for plasma-catalytic oxidation of ethyl acetate over La1-xCexCoO3+δ catalysts, Applied Catalysis B: Environmental, 2017, 213, 97-105.

L. Wang, S. Y. Liu, C. Xu, X. Tu*, Direct conversion of methanol to n-C4H10 and H2 in a dielectric barrier discharge reactor, Green Chemistry, 2016, 18, 5658-5666.

D. Mei, X. Zhu, C. Wu, B. Ashford, P. T. Williams, X. Tu*, Plasma-photocatalytic conversion of CO2 at low temperatures: Understanding the synergistic effect of plasma-catalysis, Applied Catalysis B: Environmental, 2016, 182, 525-532.

招生要求:
希望申请者具有以下研究背景之一
1能源/环境类催化
2低温等离子体、气体放电技术
3热化学转化(如熔融热解气化等)
4 催化新材料

攻读博士对英语的要求(不接受托福成绩)
雅思要求
总分6.5 ,单项不低于5.5

欢迎有相关研究背景(物理/化学/电气/化工/工程热物理等)的优秀硕士生和本科生前来攻读博士学位。有兴趣者,请联系Dr. Xin Tu, Email: [email protected];请随信附上CV和雅思成绩。