一、个人概况
夏薇,副教授,材料科学博士,硕士生导师。
教育背景:
1997-2001,浙江大学 化学工程与生物工程学院,工学学士
2001-2004,浙江大学 化学工程与生物工程学院,工学硕士
2004-2007,日本北陆先端科学技术大学院大学(JAIST),材料科学博士
工作经历:
2006,加拿大滑铁卢大学,工学院化工系,访问学者
2007-2012,日本国立产业技术综合研究所(AIST),研究员
2012-至今,中国石油大学(华东)化学工程学院,副教授
二、研究方向
[1]制氢技术
[2]生物质转化为有用化学品
[3]环境友好高分子材料设计
[4]高附加值精细化学品开发
[5]分子模拟与化学人工智能
三、承担项目
[1]国家自然科学基金面上项目, 生物乙醇制丙烯高效二氧化锆基多孔催化剂的设计及反应机理研究
[2] 国家自然科学基金青年基金项目,介孔锆基复合金属氧化物的合成及其催化转化生物乙醇合成低碳烯烃的应用基础研究
[3]山东省自然科学基金青年基金项目,杂原子掺杂介孔氧化锆的可控制备及其在催化转化生物乙醇合成低碳烯烃中的应用
[4]留学回国人员科学基金,锆基复合金属氧化物的合成及其催化生物乙醇制备丙烯的应用研究
[5]山东省重点研发计划,生物基绿色低碳烯烃的生产新技术
[6]自主创新科研计划项目,生物基绿色低碳烯烃的生产新技术研究
[7]创新型人才国际合作培养计划培育项目,生物醇制备低碳烯烃的催化新材料研究及国际合作创新平台建设
四、代表性成果
1.论文
[1]Wei Xia*, Junguo Wang, Longxiang Wang, Chen Qian, Chao Ma, Yaxin Huang, Yu Fan, Mengda Hou, Kun Chen, Ethylene and propylene production from ethanol over Sr/ZSM-5 catalysts: A combined experimental and computational study, Applied Catalysis B: Environmental, 294 (2021), 120242.
[2]Wei Xia*, Fangfang Wang, Longxiang Wang, Junguo Wang, Kun Chen, Highly Selective Lanthanum Modified Zirconia Catalyst for the Conversion of Ethanol to Propylene: A Combined Experimental and Simulation Study, Catalysis Letters, 2020, 150, 150-158.
[3]Fangfang Wang, Wei Xia*, Xichuan Mu, Kun Chen, Huimin Si, Zhihao Li, A combined experimental and theoretical study on ethanol conversion to propylene over Y/ZrO2 catalyst, Applied Surface Science, 2018, 439, 405-412.
[4]Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Remarkably enhanced selectivity for conversion of ethanol to propylene over ZrO2 catalysts,Fuel Processing Technology, 2017, 166, 140-145.
[5]Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Atsushi Takahashi, Isao Nakamura, Tadahiro Fujitani, Catalytic performance of H-ZSM-5 zeolites for conversion of ethanol or ethylene to propylene: Effect of reaction pressure and SiO2 /Al2O3 ratio,Catalysis Communications, 2017, 91, 62-66.
[6]Wei Xia*, FangfangWang, Xichuan Mu, Kun Chen, Atsushi Takahashi, Isao Nakamura, Tadahiro Fujitani, Highly selective catalytic conversion of ethanol to propylene over yttrium-modified zirconia catalyst, Catalysis Communications, 2017, 90, 10-13.
[7]Wei. Xia*, Kun Chen, Atsushi Takahashi, Xiuyi Li, Xichuan Mu, Chen Han, Li Liu, Isao Nakamura, Tadahiro Fujitani, Effects of particle size on catalytic conversion of ethanol to propylene over H-ZSM-5 catalysts-Smaller is better, Catalysis Communications, 2016, 73, 27-33.
[8]Fangfang Wang, Wei Xia*, Xichuan Mu, Kun Chen, Longxiang Wang, Experimental and Molecular Simulation Studies on Ethanol Conversion to Propylene over Different Zeolite Catalyst, Catalysis Letters, 2018, 148, 1768-1774.
[9]Wei Xia*, Fangfang Wang, Longxiang Wang, Junguo Wang, Xichuan Mu, Kun Chen, High Performance SiO2 - ZrO2 Binary Oxide for Ethanol Conversion to Ethylene, Catalysis Letters, 2018, 148, 3024-3034.
[10]Fangfang Wang, Wei Xia*, Longxiang Wang, Junguo Wang, Kun Chen, Grand Canonical Monte Carlo simulations of Ethanol Conversion to Propylene over Zeolite Catalysts, Frontiers in Materials, 2018, 5, article 64, 1-6.
[11]Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Longxiang Wang, Ethanol conversion reaction over M/ZrO2 (M= Mg, Ca, Sr, and Ba) catalysts: Effect of alkaline earth metal introduction, Reaction Kinetics, Mechanisms and Catalysis, 2018, 124:363-374.
[12]Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Transformation of ethanol to propylene on ZrO2 catalysts: Effect of reaction condition on catalytic performance, Reaction Kinetics, Mechanisms and Catalysis, 2017, 122, 463-472.
[13]Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Transformation of ethanol to propylene on ZrO2 catalysts: Effect of reaction condition on catalytic performance, Reaction Kinetics, Mechanisms and Catalysis, 2017, 122, 463-472.
[14]Wei Xia*, Qi Sun, Shangwen Liu, Linping Qiang, Yuancun Cui. SAPO-34/SiO2 catalysts for the transformation of ethanol into propylene. Advanced Materials Research, 2014, 1004-1005, 707-710.
[15]Wei Xia*, Qi Sun, Shangwen Liu, Linping Qiang, Yuancun Cui. Effect of Si/Al2 ratio on catalytic performance of HZSM-5 zeolites forconversion of ethanol to propylene. Advanced Materials Research, 2014, 953-954, 1121-1124.
[16]Qinhui Zhang, Yuwei Fang, Wei. Xia*, C. Liu, Study of coordinative nature of alkylaluminum modified Phillips CrOx/SiO2 catalyst by multinuclear solid-state NMR, Petroleum Science, 2013, 10, 577-583.
[17]Wei. Xia, Atsushi. Takahashi, Isao Nakamura, Tadahiro Fujitani*, Study of active sites on the MFI zeolite catalysts for the transformation of ethanol into propylene, Journal of Molecular Catalysis A: Chemical, 2010, 328, 114-118
[18]Wei Xia*, Boping Liu, Yuwei Fang, Tadahiro Fujitani, Toshiaki Taniike, Minoru. Terano*, Multinuclear solid-state NMR study of coordinative nature of Alkylaluminum cocatalyst on Phillips CrOx/SiO2 catalyst, Applied Catalysis A: General, 2010, 389, 186-194
[19]Wei. Xia*, K. Tonosaki, T. Taniike, M. Terano, T. Fujitani, B. Liu, Copolymerization of ethylene and cyclopentene with the Phillips CrOx/SiO2 catalyst in the presence of an aluminum alkyl cocatalyst, Journal of Applied Polymer Science, 2009, 111, 1869-1877
[20]W. Xia, K. Tonosaki, T. Taniike, B. Liu, M. Terano*, J. B. P. Soares, CRYSTAF Analysis of Polyethylene Synthesized with Phillips Catalyst, Macromolecular Symposia, 2009, 285, 74-80
2.专利
[1]一种催化生物乙醇制备烯烃的催化剂及其制备方法,发明专利,ZL 201510319715.8。
[2]一种催化生物乙醇制备低碳烯烃的催化剂及其制备方法与应用,发明专利,ZL201510532572.9
[3]一种催化乙醇制备低碳烯烃的催化剂及其制备工艺与应用方法,发明专利,ZL201710010527.6
[4]用于制备胺的催化剂、合成工艺以及胺,发明专利,ZL201410602987.4
[5]A new method for olefin polymerization,2006年5月,日本发明专利,JP 4078430
五、获奖情况
[1]2014年获青岛开发区“紧缺人才”称号
[2]2019年中国石油和化学工业联合会技术发明奖
[3]2016年青岛市科技进步奖
[4]2007年Young Scientist Award
[5]2007年 最佳墙报奖
[6]2016-2020年多次获优秀班主任称号
六、联系方式
邮箱:xiawei@upc.edu.cn
