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中国·yl23455永利(中国)股份有限公司官网

姓名: 王翔

性别:

职称: 教授

学位: 理学博士

专业: 物理化学

电子邮箱: xwang23@ncu.edu.cn

研究方向: 多相催化、工业催化、环境催化、清洁能源催化、固体表面结构化学

教育工作经历

"赣江学者特聘教授,化学专业,工业催化专业博士生导师

教育经历:

(1). 1995.09 - 1998.07,北京大学化学与分子工程学院,攻读博士学位。导师,谢有畅教授

(2). 1992.09- 1995.07,浙江大学化学系,攻读硕士学位。导师,袁贤鑫教授

(3). 1988.09 - 1992.07,兰州大学化学系,攻读学士学位

工作经历:

(1). 1998.08 - 2000.05Northwestern University, Center for Catalysis and Surface Science, 博士后,导师Wolfgang M. H. Sachtler

(2). 2000.06 - 2002. 09University of Pennsylvania, Department of Chemical Engineering,博士后,导师.Raymond J. Gorte

(3). 2002.09 - 2005.03Lehigh University, Department of Chemical Engineering, Research Associate, 导师Israel E. Wachs

(4). 2005.03 - 2008.01,美国EverNu Technology, LLC, Senior Research Scientist

(5). 20081月至20106月,BASF, The Chemical Company, BASF Catalysts LLC, USAResearch Chemist II

(6). 2010.06 - 至今,yl23455永利官网,"赣江学者"特聘教授,"215" 工程高层次人才,工业催化学术带头人,yl23455永利官网化学学院教授委员会主任,江西省环境与能源催化重点实验室主任

教学简介

为本科生讲授《物理化学》、《结构化学》和《工程化学》主干课,《化学与美好生活》和《化学前沿》等通识课。为国际留学生讲授《General Chemistry》英语课程。《结构化学》课程获yl23455永利官网授课质量优秀奖。

为硕士和博士研究生讲授《结构与物性》、《催化反应动力学》、《催化剂设计》和《催化前沿》等课程。

科研简介

1992年开始从事多相催化、工业催化和表面结构化学研究。在环境催化、清洁能源催化、稀土催化等方向开展了较系统的工作。在美国工作期间作为主要成员参与多个美国能源部资助的项目。2010年回国后,主持国家自然科学基金4项,省部级基金10余项和重大横向基金4项。以第一作者或通讯作者在国内外化学化工期刊发表SCI收录论文160余篇,工作得到国内外同行的关注,已被引用近6000次。已获授权中国发明专利12项,美国专利1项。与国内多家企业开展密切的产学研用合作,部分催化相关技术投入实际应用中。多次受邀请在国际、国内会议做大会报告,主题报告或担任分会主席。在美国工作期间,曾在世界500强,美国巴斯夫催化剂公司(BASF Catalysts, LLC, USA)担任Research Chemist, 带领团队参与工业催化剂的研发,具有开展工业应用研发的经验。

科研项目

国家自然科学基金

  1. 研制新型高效甲烷氧化偶联催化剂:固定分子式组成复合氧化物材料的结构调控和性能优化,国家自然科学基金面上项目基金编号:221720712022-2025年;

  2. 负载金属氧化物体系单层分散的本质原因探讨:相似相分散现象研究,国家自然科学基金项目,基金编号:219620092020-2023年;

  3. Sn基催化新材料用于致霾空气污染物消除,国家自然科学基金项目,基金编号:215670162016-2019年;

  4. 新型稀土改性二氧化锡催化剂的催化化学研究,国家自然科学基金项目,基金编号:212630152013-2016年;

省级基金项目

  1. 江西省双千计划长期创新领军人才,江西省双千计划项目,项目编号:JXSQ20191010012020-2024年;

  2. 甲烷氧化偶联活性位设计:创建新型高性能烧绿石催化材料,江西省自然科学基金重点项目基金编号:20181ACB200052018-2020年;

  3. 致霾机动车尾气治理关键纳米催化新材料技术的研究,江西省科技厅科技支撑项目,基金编号:20151BBE500062015-2017年;

  4. 清除柴油车尾气致霾污染物纳米催化新材料研制, 江西省教育厅落地计划, 基金编号:KJLD140052015-2017年;

  5. 高性能甲烷氧化偶联烧绿石型催化剂制备,江西省教育厅重点项目,基金编号:GJJ1500162016-2018年;

  6. 稀土改性Ni催化剂用于天然气及C6以下低碳烃水蒸气重整制氢,南昌市科技局科技支撑项目2013-2014年;

  7. 负载金属氧化物和载体相互作用的热力学原因探讨:指认影响其催化性能的关键物理化学因素,江西省自然科学基金,基金编号:20202BAB2030062020-2022年;

  8. 稀土改性纳米氧化锡催化剂用于一氧化碳的催化氧化,江西省教育厅基金,基金编号:GJJ120452012-2013年;

横向项目

  1. 符合国VI排放标准汽车尾气催化剂研制,横向课题,经费总额50万元,2017-2018年;

  2. 柴油发动机SCR尾气催化剂、天然气发动机尾气催化剂,横向课题2013-2015年;

  3. 制备绿色能源氢用新型高效稀土催化剂,横向课题2012~2014年;

  4. IV稀土汽车尾气净化催化器,横向课题2011~2013年;

获奖情况

江西省双千计划长期创新领军人才

yl23455永利官网优秀本科生班主任

《结构化学》获yl23455永利官网授课质量优秀

代表性论文及专利

部分代表性论文

  1. Xu, X. L.; Liu, L.; Tong, Y. Y.; Fang, X. Z.; Xu, J. W.; Jiang, D. E.; Wang, X.*, Facile Cr3+-Doping Strategy Dramatically Promoting Ru/CeO2 for Low-Temperature CO2 Methanation: Unraveling the Roles of Surface Oxygen Vacancies and Hydroxyl Groups. ACS Catalysis, 2021, 11 (9), 5762-5775. (催化学科顶尖期刊论文)

  2. Feng, X. H.; Xu, J. W.; Xu, X. L.; Zhang, S. J.; Ma, J.; Fang, X. Z.; Wang, X.*, Unraveling the Principles of Lattice Disorder Degree of Bi2B2O7 (B = Sn, Ti, Zr) Compounds on Activating Gas Phase O2 for Soot Combustion. ACS Catalysis, 2021, 11 (19), 12112- 12122. (催化学科顶尖期刊论文)

  3. Xu, J.; Zhang, Y.; Xu, X.; Fang, X.; Xi, R.; Liu, Y.; Zheng, R.; Wang, X*., Constructing La2B2O7 ( B = Ti, Zr, Ce) Compounds with Three Typical Crystalline Phases for the Oxidative Coupling of Methane: The Effect of Phase Structures, Superoxide Anions, and Alkalinity on the Reactivity. ACS Catalysis.2019, 9, 4030-4045. (催化学科顶尖期刊论文)

  4. Xu, X.; Li, L.; Huang, J.; Jin, H.; Fang, X.; Liu, W.; Zhang, N.; Wang, H.; Wang, X.*, Engineering Ni3+ Cations in NiO Lattice at the Atomic Level by Li+ Doping: The Roles of Ni3+ and Oxygen Species for CO Oxidation. ACS Catalysis .2018, 8 (9), 8033-8045. (催化学科顶尖期刊论文)

  5. Xu, J. W; Xi, R; Xiao, Q.Y; Xu, X. L; Li, S. B; Gong, Y; Zhang, Z. X; Fang, X.Z; Wang, X*, Design of strontium stannate perovskites with different fine structures for the oxidative coupling of methane (OCM): Interpreting the functions of surface oxygen anions, basic sites and the structurereactivity relationship, Journal of Catalysis, 2022,408,465-477. (催化学科顶尖期刊论文)

  6. Xu, X. L.; Wang, X.*; Jiang, D. E., Band Gap as a Novel Descriptor for the Reactivity of 2D Titanium Dioxide and its Supported Pt Single Atom for Methane Activation. Journal of Physical Chemistry Letters, 2021, 12 (10), 2484-2488. (物理化学学科顶尖期刊论文,Nature-index)

  7. Zhang, H. M.; Zhang, Z. Z.; Liu, Y. M.; Fang, X. Z.; Xu, J. W.; Xu, X. L.; Wang, X.*, Band-Gap Engineering: A New Tool for Tailoring the Activity of Semiconducting Oxide Catalysts for CO Oxidation. Journal of Physical Chemistry Letters, 2021, 9188-9196. (物理化学学科顶尖期刊论文,Nature-index)

  8. J. Xu, R. Xi, Y. Gong, X. Xu, Y. Liu, X. Zhong, X. Fang, Wang, X.*, Constructing Y2B2O7 (B = Ti, Sn, Zr, Ce) Compounds to Disclose the Effect of Surface Acidity-Basicity on Product Selectivity for Oxidative Coupling of Methane (OCM), Inorganic Chemistry, 61 (29) (2022) 11419- 11431. (Nature-index)

  9. Feng, X. H.; Liu, R.; Xu, X. L.; Tong, Y. Y.; Zhang, S. J.; He, J. C.; Xu, J. W.; Fang, X. Z.; Wang, X.*, Stable CuO/La2Sn2O7 catalysts for soot combustion: Study on the monolayer dispersion behavior of CuO over a La2Sn2O7 pyrochlore support. Chinese Journal of Catalysis, 2021, 42 (3), 396-408. (Top 1)

  10. Xu, X. L.; Tong, Y. Y.; Zhang, J. Y.; Fang, X. Z.; Xu, J. W.; Liu, F. Y.; Liu, J. J.; Zhong, W.; Lebedeva, O. E.; Wang, X.*, Investigation of lattice capacity effect on Cu2+-doped SnO2 solid solution catalysts to promote reaction performance toward NOx-SCR with NH3. Chinese Journal of Catalysis, 2020, 41 (5), 877-888. (Top 1)

  11. Rao, C.; Liu, R.; Feng, X.; Shen, J.; Peng, H.; Xu, X.; Fang, X.; Liu, J.; Wang, X., Three-dimensionally ordered microporous SnO2-based solid solution catalysts for effective soot oxidation. Chinese Journal of Catalysis .2018, 39 (10), 1683- 1694. (Top 1)

  12. Sun, Q.; Xu, X. L.; Peng, H. G.; Fang, X. Z.; Liu, W. M.; Ying, J. W.; Yu, F.; Wang, X., SnO2-based solid solutions for CH4 deep oxidation: Quantifying the lattice capacity of SnO2 using an X-ray diffraction extrapolation method. Chinese Journal of Catalysis .2016, 37 (8), 1293- 1302. (Top 1)

  13. Peng, H. G.; Peng, Y.; Xu, X. L.; Fang, X. Z.; Liu, Y.; Cai, J. X.; Wang, X., SnO2 nano-sheet as an efficient catalyst for CO oxidation. Chinese Journal of Catalysis 2015, 36 ( 11), 2004-2010. (Top 1)

  14. Fang, X. Z.; Xia, L. H.; Li, S. B.; Hong, Z.; Yang, M. H.; Xu, X. L.; Xu, J. W.; Wang, X.*, Superior 3DOM Y2Zr2O7 supports for Ni to fabricate highly active and selective catalysts for CO2 methanation. Fuel, 2021, 293,120460. (Top 1)

  15. Zhang, Z.X; Gong, Y; Xu, J.W; Xiao, Q.Y; Xi, R; Xu, X.L; Fang, X.Z; Wang, X*, Dissecting La2Ce2O7 catalyst to unravel the origin of the surface active sites devoting to its performance for oxidative coupling of methane (OCM), Catalysis Today, 2022, 73, 81, 400-401.

  16. Liu, X.F; Xu, J.W; Li, S.B; Chen, Z.J; Xu, X.L; Fang, X.Z; Wang, X*, Using XRD extrapolation method to design Ce-Cu-O solid solution catalysts for methanol steam reforming to produce H2: The effect of CuO lattice capacity on the reaction performance, Catalysis Today, 2022, 402, 15, 228-240.

  17. Xi, R.; Xu, J. W.; Zhang, Y.; Zhang, Z. X.; Xu, X. L.; Fang, X. Z.; Wang, X.*, The enhancement effects of BaX2 (X = F, Cl, Br) on SnO2-based catalysts for the oxidative coupling of methane (OCM). Catalysis Today, 2021, 364, 35-45.

  18. Zhang, Y.; Xu, J. W.; Xu, X. L.; Xi, R.; Liu, Y. M.; Fang, X. Z.; Wang, X.*, Tailoring La2Ce2O7 catalysts for low temperature oxidative coupling of methane by optimizing the preparation methods. Catalysis Today, 2020, 355, 518-528.

  19. Wang, D. X.; Huang, J.; Liu, F.; Xu, X. L.; Fang, X. Z.; Liu, J. J.; Xie, Y. C.; Wang, X.*, Rutile RuO2 dispersion on rutile and anatase TiO2 supports: The effects of support crystalline phase structure on the dispersion behaviors of the supported metal oxides. Catalysis Today, 2020, 339, 220-232.

  20. Liu, R.; Feng, X. H.; Xu, X. L.; Duan, J. Y.; Ma, J.; Fang, X. Z.; Xu, J. W.; Wang, X.*, The promotional effects of CsNO3 on Sn-Co-O solid solution for soot combustion: Using XRD extrapolation method to elucidate the structure-reactivity relationship. Applied Surface Science, 2020, 509, 145363. (Top 1)

  21. Rao, C.; Shen, J.; Wang, F.; Peng, H.; Xu, X.; Zhan, H.; Fang, X.; Liu, J.; Liu, W.; Wang, X.*, SnO2 promoted by alkali metal oxides for soot combustion: The effects of surface oxygen mobility and abundance on the activity. Applied Surface Science . 2018, 435, 406-414. (Top 1)

  22. Fang, X.; Lian, J.; Nie, K.; Zhang, X.; Dai, Y.; Xu, X.; Wang, X.*; Liu, W.; Li, C.; Zhou, W., Dry reforming of methane on active and coke resistant Ni/Y2Zr2O7 catalysts treated by dielectric barrier discharge plasma. Journal of Energy Chemistry. 2016, 25 (5), 825-831. (Top 1)

  23. Fang, X.; Xia, L.; Peng, L.; Luo, Y.; Xu, J.; Xu, L.; Xu, X.; Liu, W.; Zheng, R.; Wang, X.*, Ln2Zr2O7 compounds (Ln = La, Pr, Sm, Y) with varied rare earth A sites for low temperature oxidative coupling of methane. Chinese Chemical Letters. 2019, 30 (6), 1141- 1146. (Top 1)

  24. Liu, J; Zeng, L; Xu, X; Xu, J; Fang, X; Bian, Y; Wang, X.*, The critical roles of hydrophobicity, surface Ru0 and active O2-/O22- sites on toluene combustion o Ru/ZSM-5 with varied Si/Al ratios, Physical Chemistry Chemical Physics, 2022, 24 (23), 14209- 14218.

  25. Feng, X.H; Zhang, S.J; Liu, R; Ma, J; Xu, X.L; Xu, J.W; Fang, X.Z; Wang, X*, Niobium oxide promoted with alkali metal nitrates for soot particulate combustion: elucidating the vital role of active surface nitrate groups, Physical Chemistry Chemical Physics, 2022, 24, 3250-3258.

  26. Xia, L. H.; Fang, X. Z.; Xu, X. L.; Liu, Q. Q.; Yang, M. H.; Xu, J. W.; Gao, Z. X.; Wang, X.*, The promotional effects of plasma treating on Ni/Y2Ti2O7 for steam reforming of methane (SRM): Elucidating the NiO-support interaction and the states of the surface oxygen anions. International Journal of Hydrogen Energy, 2020, 45 (7), 4556-4569.

  27. Zhang, X.; Peng, L.; Fang, X.; Cheng, Q.; Liu, W.; Peng, H.; Gao, Z.; Zhou, W.; Wang, X.*, Ni/Y2B2O7 (B=Ti, Sn, Zr and Ce) catalysts for methane steam reforming: On the effects of B site replacement. International Journal of Hydrogen Energy, 2018, 43 ( 17), 8298-8312.

  28. Wang, X.; Xiao, L. H.; Peng, H. G.; Liu, W. M.; Xu, X. L., SnO2 nano-rods with superior CO oxidation performance. Journal of Materials Chemistry A, 2014, 2 ( 16), 5616-5619.

代表性发明专利(仅列近五年)

  1. 一种碱金属氧化物改良二氧化锡基碳烟消除催化剂及制备方法和应用,ZL201710195820.4

  2. 以介孔二氧化硅为模板制备高比表面二氧化锡催化剂的方法,ZL201710251428.7

  3. 一种金属离子改良的二氧化锡纳米棒催化剂的制备方法,ZL201710251450.1

  4. 一种烧绿石复合氧化物碳烟消除催化剂及制备方法和应用,ZL202011327249.5

  5. 一种高乙烯选择性甲烷氧化偶联催化剂的制备方法及应用,CN202011365422.0

特邀学术报告(近五年部分主要学术报告):

  1. 第二十一届全国催化学术会议,云南昆明,2023.7.21-2023.7.25

  2. 第二十三届全国稀土催化学术会议,陕西西安。2023.6.9-2023.6.12

  3. 国际产学研用合作会议,中国江西南昌,2022.11.9-2022.11.11

  4. 第一届发动机尾气排放炭烟颗粒催化消除国际学术研讨会,辽宁沈阳,2021.9.3-2021.9.6

  5. 第二十届全国催化学术会议,湖北武汉,2021.10.15-2021.10.20

  6. 高丰度稀土高值化平衡利用国际高峰论坛,江西南昌,2020.8.20-2020.8.23

  7. 2020 Korea-China rare earth new material technology development seminarKorea2020.1.6-2020.1.10

  8. 257th ACS National MeetingDivision of Energy and FuelsOrlando, Florida2019.3.31-2019.4.4

  9. 第十九届全国催化学术会议,重庆市,2019.10.13-2019.10.17

  10. 第二十二届全国稀土催化学术会议,山东省青岛市,2018.10.12-2018.10.14

  11. 第十二届海峡两岸催化学术会议(CSCS-12),台湾台北,2018.9.10-2018.9.11

  12. 第十一届全国环境催化与环境材料学术会议,辽宁省沈阳,2018.7.20-2018.7.23

职位:

社会兼职

中国化学会催化专业委员会委员

中国化学会催化剂制备学术委员会委员

中国稀土学会催化专业委员会

中国化学会全国环境催化与环境材料学术委员倭员

中国能源学会能源与环境专业委员会委员

江西省化学化工学会理事

江西省稀土学会理事

担任Chemistry Africa (Springer) 副主编和工业催化杂志编委

担任以下学术期刊审稿人

Nature Communication

Angewandte Chemie

Advanced Materials

ACS Catalysis

Journal of Catalysis

Catalysis Science and Technology

Catalysis Today

Catalysis Letters

ChemCatChem

Chinese Journa1 of Catalysis

Applied Catalysis A

Applied Catalysis B

Industrial Engineering & Chemical Research

Journal of Electrochemical Society

New Journa1 of Chemistry

Applied Surface Sciences

ACS Applied Materials & Interfaces

Surface and Coatings Technology

Journal of Rare Earth;

Materials Letters

Journal of Hazardous Materials

Chemical Engineering Technology

Catalysis Survey from Asia

Journa1 of Nanoscience and Nanotechology

Journal of Taiwan Institute of Chemical Engineering

International Journal of Hydrogen Energy

Journa1 of Energy Chemistry

Energy Conversion and Management

Fuel Processing Technology

Research on Chemical Intermediates

RSC Advances

ACS Omega

ACS Applied Nano Materials

Journal of Analytical and Applied Pyrolysis

Materials Characterization

Materials Science and Engineering B

Journal of Materials Science

Microporous and Mesoporous Materials

Chemistry Africa

Advanced Materials Interfaces

Waste and Biomass Valorization

Journal of Alloys and Compounds

The Global Environmental Engineers

中国科学-化学;物理化学学报;催化学报;中国化学工程学报;稀土学报