天津大学化工学院导师教师师资介绍简介-李新刚

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李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
研究方向: 能源催化与环境催化研究兴趣包括：工业催化剂的设计开发、多功能纳米催化剂的设计耦合以及化学工业过程中的新催化反应工艺研发。具体研究方向：煤基低碳分子催化转化制取液体燃料燃料电池在线催化供氢系统：催化重整制氢，水煤气变换，一氧化碳优先氧化机动车尾气及工业废气污染物催化消除光催化水分解制氢及污染物降解

李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
讲授课程: 高等结构分析与表征、固体催化剂物性测定理论基础、现代分析测试方法、催化剂和催化反应表征方法

李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
学术兼职: 现任中国化学会分子筛专业委员会委员、中国稀土学会催化专业委员会委员、中国能源学会能源与环境专业委员会委员、全国青年催化学术会议学术委员会委员、全国环境催化与环境材料学术会议学术委员会委员。
科技部、国家自然科学基金、教育部项目以及多省自然科学基金的函评专家以及结题验收会评专家。
Journal of Chemical Technology & Biotechnology（Wiley出版集团，中科院SCI二区期刊）副主编
Catalysis Today （Elsevier出版集团，中科院SCI二区期刊）客座编辑
《化工学报》（EI收录）客座编辑
Frontiers in Chemistry （中科院SCI二区期刊）期刊编委
Frontiers in Materials （中科院SCI三区期刊）期刊编委

李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
学术成就: 相关成果在Nat. Commun.(Nature子刊),Chem (Cell子刊),Energy Environ. Sci., Chem. Sci.,J. Catal., ACS Catal., Appl. Catal. B、Chem. Eng. Sci.等国际高水平学术期刊发表100余篇SCI论文，其中3篇入选ESI高被引论文，以第一发明人获得授权国家发明专利8项。主持和完成1项国家科技部863课题、6项国家自然科学基金。研究成果曾被Nat. Commun.和ChemSusChem遴选为Editors' highlights论文，Appl. Catal. B、Chem. Sci.等期刊封面论文、热点论文；研究成果被人民网、美国化学会《Chem. & Eng. News》、英国皇家化学会、中科院官方媒体和《中国化工报》等国内外科技媒体做正面专题报道。
2019年荣获天津大学“我心目中的十佳好导师”称号。
2019年入选天津市中青年科技创新领军人才。
2019年入选天津市131创新团队负责人。
2019年入选天津大学“教工示范岗”荣誉称号。
2017年入选天津大学长聘教授。
2015年入选天津市131创新人才第一层次人选。
2014年入选天津大学北洋青年****计划。
2014年入选天津市131创新人才第二层次人选。
2012年入选天津大学北洋****青年骨干教师计划。
2010年入选教育部“新世纪优秀人才支持计划”。
2008年被国际催化理事会授予“青年科学家奖”。
2012，2014，2019 荣获“天津大学教书育人先进个人”。
2011年荣获天津大学“宝舜”奖教金。
2014年荣获“天津大学青年文明岗优秀团队”。

李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
科研项目: 目前作为项目负责人承担：
国家自然科学基金（2019-2022）
国家自然科学基金（2017-2020）
国家自然科学基金（2015-2018）（已结题）
天津市重点基金（2015-2018）（已结题）
国家自然科学基金（2013-2015）（已结题）
国家自然科学基金（2012-2014）（已结题）
教育部新世纪人才支持计划（2011-2013）（已结题）
天津市自然科学基金（2011-2014）（已结题）
天津市科技支撑计划（2009－2012）（已结题）
国家科技部863项目(2008-2011) （已通过验收）
国家自然科学基金(2009-2011) （已结题）
教育部博士点新教师基金(2009-2011) （已结题）
天津市自然科学基金(2007-2009) （已结题）

作为科研骨干参与项目：
973重大研究计划子课题一项（2014-2018）（已结题）
国家自然科学基金一项(2009.1-2011.12)（已结题）

李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
论著专利: Confined small-sized cobalt catalysts stimulate carbon-chain growth reversely by modifying ASF law of Fischer–Tropsch synthesis,Q. Cheng, Y. Tian, S. Lyv, N. Zhao, K. Ma, T. Ding, Z. Jiang, L. Wang, J. Zhang, L. Zheng, F. Gao, L. Dong, N. Tsubaki*, X. Li*,Nature Communications2018, 9: 3250. (Nature 子刊, Editor's highlights)
De-NO_x in alternative lean/richatmospheres on La_1-xSr_xCoO₃ perovskites, X. Li^*, Y. Dong, H.Xian, W. Hernandez, M. Meng*, H. Zou, A. Ma, T. Zhang, Z. Jiang, N. Tsubaki, P.Vernoux, Energy & Environmental Science 2011, 4: 3351-3354.
Synergetic Enhancement of Light Harvestingand Charge Separation over Surface-Disorder-Engineered TiO₂ PhotonicCrystals, J. Cai, M. Wu, Y. Wang, Hao Zhang, M. Meng, Y Tian, X. Li^*, J. Zhang, L.Zheng, and J. Gong*, Chem 2017, 2: 877-892. （Cell子刊）
Pd-doped perovskite: an effective catalystfor removal of NO_x from lean-burn exhausts with high sulfurresistance, X. Li, C. Chen,C. Liu, H. Xian, L. Guo, J. Lv, Z. Jiang, ACS Catalysis 2013,3: 1071-1705. (Highlighted by Chem. Eng. News)
Identifying Oxygen Activation/Oxidation Sites for Efficient Soot Combustion over Silver Catalysts Interacted with Nanoflower-Like Hydrotalcite-Derived CoAlO Metal Oxides, W. Ren, T. Ding, Y. Yang, L. Xing, Q. Cheng, D. Zhao, Z. Zhang, Q. Li, J. Zhang, L. Zheng, Z. Jiang, X. Li*, ACS Catalysis 2019, 9: 8772-8784.
Insights into the effects of surface/bulk defects on photocatalytic hydrogen evolution over TiO₂with exposed {001} facets, H. Zhang, J. Cai, Y. Wang, M. Wu, M. Meng, Y. Tian,X. Li^*, J. Zhang, L. Zheng, Z. Jiang, J. Gong^*,Applied Catalysis B: Environmental2018, 220: 126-136.（ESI高被引论文）
Achievingefficient and robust catalytic reforming on dual-sites of Cu species, K. Ma, Y.Tian, Z. Zhao, Q. Cheng, T. Ding, J. Zhang, L. Zheng, Z. Jiang, T. Abe, N.Tsubaki, J. Gong*, X. Li*, Chemical Science, 2019, 10: 2578- (CoverStory, 2019 Chemical Science HOT Article Collection).

Tuninginteraction between cobalt catalysts and nitrogen dopants in carbon nanospheresto promote Fischer-Tropsch synthesis, Q. Cheng, N. Zhao, S.Lyu, Y. Tian, F. Gao, L. Dong, Z. Jiang, J. Zhang, N. Tsubaki, X. Li*, Applied Catalysis B:Environmental 2019, 248: 73-83.

Rational Construction of Oxygen Vacancies onto Tungsten Trioxide to Improve Visible Light Photocatalytic Water Oxidation Reaction, Y. Wang, J. Cai, M. Wu, J. Chen, W. Zhao, Y. Tian, T. Ding，J. Zhang, Z. Jiang,X. Li^*,Applied Catalysis B: Environmental2018, 239: 398-407.
Diesel soot elimination overpotassium-promoted Co₃O₄ nanowires monolithic catalystsunder gravitation contact mode, C. Cao, L. Xing, Y. Yang, Y. Tian, T. Ding, J.Zhang, T. Hu, L. Zheng, X. Li^*, AppliedCatalysis B: Environmental 2017, 218: 32-45.
Effects ofFe dopants and residual carbonates on the catalytic activities of theperovskite-type La_0.7Sr_0.3Co_1?xFe_xO₃ NO_x storage catalyst, A. Ma, S. Wang, C. Liu, H. Xian, Q. Ding, L.Guo, M. Meng, X. Li^*, AppliedCatalysis B: Environmental 2014, 146: 24-34.
Insight into the improvement effect of theCe doping into the SnO₂ catalyst for the catalytic combustion ofmethane, C. Liu, H. Xian, Z. Jiang, L. Wang, J. Zhang, L. Zheng, Y. Tan, X. Li^*, AppliedCatalysis B: Environmental 2015, 176: 542-552.
One-step synthesis of H-b zeolite-enwrapped Co/Al₂O₃ Fischer-Tropsch catalyst withhigh spatial selectivity, X. Li,J. He, M. Meng, Y. Yoneyama, N. Tsubaki, Journal of Catalysis 2009, 265: 26-34.
In SituFormation of Disorder-Engineered TiO₂(B)-Anatase HeterophaseJunction for Enhanced Photocatalytic Hydrogen Evolution, J. Cai, Y. Wang, Y.Zhu, M. Wu, H. Zhang, X. Li^*, ACSApplied Materials & Interfaces 2015, 7: 24987-24992.
Crossed ferric oxide nanosheets supportedcobalt oxide on 3-dimensional macroporous Ni foam substrate used for dieselsoot elimination under self-capture contact mode, C. Cao, X. Li^*, Y. Zha, J. Zhang, T. Hu, M. Meng, Nanoscale 2016, 8: 5857-5864. (Front cover story)
Facilely synthesized H-Mordenite nanosheetassembly for carbonylation of dimethyl ether, Y. Liu, N. Zhao, H. Xian, Q.Cheng, Y. Tan, N. Tsubaki, X. Li^*, ACSApplied Materials & Interfaces 7 2015,7: 8398-8403
Hydrogenated Cagelike Titania HollowSpherical Photocatalysts for Hydrogen Evolution under Simulated Solar LightIrradiation, Y. Wang, J. Cai, M. Wu, H. Zhang, M. Meng, Y. Tian, T. Ding, J.Gong, Z. Jiang, X. Li^*, ACSApplied Materials & Interfaces 2016, 8: 23006-23014.
NO adsorption behaviors of the MnO_x catalysts in lean-burn atmospheres, L. Guo, H. Xian, Q. Li, D. Chen, Y. Tan, J.Zhang, L. Zheng, X. Li^*, Journalof Hazardous Materials 2013, 260: 543-551.
Coaddition of Phosphorus and Proton to Graphitic Carbon Nitride for Synergistically Enhanced Visible Light Photocatalytic Degradation and Hydrogen Evolution,M. Wu, T. Ding, J. Cai, Y. Wang, H. Xian, H. Zhang, Y. Tian, T. Zhang, X. Li*,ACS Sustainable Chemistry & Engineering 2018, 6: 8167–8177.
Unraveling the low-temperature redox behavior of ultrathin ceria nanosheets with exposed {110} facets by in situ XAFS/ DRIFTS utilizing CO as molecule probe, L. Zhang, K. Ma, C. Shao, Z. Tang, Q. Cheng, P. An, S. Chu, L. Zheng,X. Li*, J. Zhang*,Journal of Physical Chemistry C2019, 123: 322-333. (Cover Story)
Tuning interactions between zeolite andsupported metal by physical-sputtering to achieve higher catalytic performances, X. Li^*, C. Liu, J.Sun, H. Xian, Y. Tan, Z. Jiang, A. Taguchi, M. Inoue, Y. Yoneyama, T. Abe, N. Tsubaki*, ScientificReports 2013, 3: 2813.
Direct Synthesis of Ethanol from DimethylEther and Syngas over Combined H-Mordenite and Cu/ZnO Catalysts, X. Li*, X. San, Y. Zhang*, T.Ichii, M. Meng, Y. Tan, N. Tsubaki*, ChemSusChem 2010, 3: 1192-1199.
Silicalite-1 membrane encapsulatedRh/activated-carbon catalyst for hydroformylation of 1-hexene with highselectivity to normal aldehyde, X. Li*,Y. Zhang*, M. Meng, G. Yang, X. San, M. Takahashi, N. Tsubaki*, Journalof Membrane Science 2010, 347: 220-227.
Mesoporous SiO₂-confined La_0.7Sr_0.3CoO₃ perovskite nanoparticles: an efficient NO_x adsorber for lean-burnexhausts, Q. Ding, H. Xian, Y. Tan, X.Li^*, Catalysis Science & Technology 2013, 3: 1493-1496.
Cu/ZnO/SiO₂ catalyst synthesizedby reduction of ZnO-modified copper phyllosilicate for dimethyl ether steamreforming, X. Wang, K. Ma, L. Guo, Y. Tian^*, Q. Cheng, X. Bai, J.Huang, T. Ding, X. Li^*, AppliedCatalysis A: General 540 2017,540: 37-46.
The monolithic transition metal oxide crossednanosheets used for diesel soot combustion under gravitational contact mode, C.Cao, L. Xing, Y. Yang, Y. Tian, T. Ding, J. Zhang, T. Hu, L. Zheng, X. Li^*, AppliedSurface Science 2017, 406: 245-253.
Effect of phase interaction on catalytic COoxidation over the SnO₂/Al₂O₃ model catalyst, S.Chai, X. Bai, J. Li, C. Liu, T. Ding, Y. Tian, C. Liu, H. Xian, W. Mi, X. Li^*, AppliedSurface Science 2017, 402: 12-20.
Carbonates-BasedNoble Metal-Free Lean NO_x Trap Catalysts MO_x-K₂CO₃/K₂Ti₈O₁₇ (M=Ce, Fe, Cu, Co) With Superior Catalytic Performance, Y. Zhang, R. You*,D. Liu, C. Liu, X. Li^*,Y. Tian, Z. Jiang, S. Zhang, Y. Zhang, Y. Zha, M. Meng*, Applied Surface Science 2015,357: 2260-2276.
Influence of synthesis conditions on NOoxidation and NO_x storage performances of La_0.7Sr_0.3MnO₃ perovskite-type catalysts in lean-burn atmospheres, Y. Dong , H. Xian, J. Lv,C. Liu, L. Guo, M. Meng, Y. Tan, X. Li^*, MaterialsChemistry and Physics 2014, 143: 578-586.
Effects of Ti-doping on the NO_x storage and the sulfur resistance of the BaFe_1-xTi_xO_3-y perovskite-type catalysts for lean-burn exhausts, C. Ge, L. Li, H. Xian, H.Yan, M. Meng, X. Li^*, FuelProcessing Technology 2014, 120: 1-7.
Enhanced activity of CuO/K₂CO₃/MgAl₂O₄ catalyst for lean NO_x storage and reduction at high temperatures, Y.Liu, L. Guo, D. Zhao, X. Li^*,Z. Gao, T. Ding^*, Y. Tian and Z. Jiang, RSC Advances 2017, 7: 27405–27414.
Dimethyl ether steam reforming to produce H₂ over Ga-doped ZnO/gamma-Al₂O₃ catalysts, S. Zhou, K. Ma,Y. Tian, M. Meng, T. Ding, Y. Zha, T. Zhang, X. Li^*, RSC Advances 2016, 6: 52411-52420.
BaFeO₃-x Perovskite: AnEfficient NO_x Absorber with a High Sulfur Tolerance,H. Xian, X. Zhang, X. Li^*,L. Li, H. Zou, M. Meng*, Q. Li, Y. Tan, N. Tsubaki, Journal of Physical Chemistry C 2010, 114: 11844-11852.
Insight into Copper Oxide-Tin Oxide Catalystsfor the Catalytic Oxidation of Carbon Monoxide: Identification of Active CopperSpecies and a Reaction Mechanism, X. Bai, S. Chai, C. Liu, K. Ma, Q. Cheng, Y.Tian, T. Ding, Z. Jiang, J. Zhang, L. Zheng, and X. Li^*, ChemCatChem 2017, 9: 3226-3235.
Oxidizing, trapping and releasing NO_x over model manganese oxides in alternative lean-burn/fuel-rich atmospheres atlow temperatures, L. Guo, L. Guo, D. Zhao, Z. Gao, Y. Tian,T. Ding, J. Zhang, L. Zheng, X. Li^*, Catalysis Today 2017, 297: 27-35
Enhanced catalytic performance for COpreferential oxidation over CuO catalysts supported on highly defective CeO₂ nanocrystals, C. Wang, Q. Cheng, X. Wang, K. Ma, X. Bai, S. Tan, Y. Tian^*,T. Ding, L. Zheng, J. Zhang, X. Li^*, AppliedSurface Science 2017, 422: 932-943
CuO/CeO₂ catalysts synthesizedfrom Ce-UiO-66 metal-organic framework for preferential CO oxidation, C. Zhu, T.Ding, W. Gao, K. Ma, Y. Tian^*, X.Li^*, International Journal of Hydrogen Energy 2017, 42: 17457-17465.
Influence of preparation conditions tostructure property, NO_x and SO₂ sorption behavior of theBaFeO_3?x perovskite catalyst, H. Xian, F. Li, X. Li^*, X. Zhang, M. Meng*, T. Zhang, N. Tsubaki*, FuelProcessing Technology 2011, 92: 1718-1724.

李新刚现任职称/职务：天津大学长聘教授/催化科学与工程系主任
通讯地址：北洋园校区52-439
电子邮箱：xingang_li@tju.edu.cn
办公电话：
合作交流: 与日本国立富山大学椿范立教授（日本学术会议连携会员）在合成气催化转化方面有长期合作。