韓優,女,漢族,現任天津大學化工學院英才教授、博導、副院長,英國皇家化學會Energy Advances期刊副主編、中國化學會理論化學專委會委員,四川大學客座教授。2003年天津大學化學工程與工藝、工商管理雙學士,2008年天津大學化學工藝和美國南伊利諾伊大學計算化學聯合培養博士,2014年至2015年美國加州理工學院訪問學者。主持國家自然科學基金聯合重點項目和國家重點研發計畫子課題等多項科研項目。以第一/通訊作者在PNAS、JACS、Angew. Chem. Int. Ed.、Phys. Rev. Lett.、ACS Catal.、AIChE J.等期刊上發表SCI論文近70篇,獲中國發明專利授權近20件。
基本介紹
- 中文名:韓優
- 國籍:中國
- 民族:漢族
- 學位/學歷:博士
- 職業:教師
- 專業方向:理論計算化學在催化環保和能源化工領域的套用
- 職稱:天津大學化工學院教授
教育背景
1999.9-2003.7:天津大學,化學工程與工藝和工商管理,雙學士
2003.9-2008.3:天津大學化學工藝和美國南伊利諾伊大學(SIUC)計算化學,聯合培養博士
天大導師:劉昌俊教授;SIUC導師:葛慶峰教授
工作經歷
2008.3-2012.6:天津大學化工學院,講師
2012.7-2019.6:天津大學化工學院,副教授
2014.6-2015.7:美國加州理工學院,訪問學者,師從Goddard院士
2019.7-至今: 天津大學化工學院,教授、博導(2017)
學術兼職
2019-至今:中國化工學會化工過程強化專業委員會第一屆青年委員
2018-至今:中國化工學會信息技術套用專業委員會第三屆青年委員
承擔項目
1. 國家基金委聯合重點項目,項目負責人, 2021.01-2024.12
2. 國家重點研發計畫,子課題負責人, 2019.08-2024.07
3. 國家基金委面上項目,項目負責人, 2020.01-2023.12
4. 國家基金委面上項目,項目負責人, 2016.01-2019.12
5. 國家基金委青年項目,項目負責人, 2012.01-2014.12
6. 天津市科委面上項目,項目負責人, 2019.04-2022.03
7. 天津市科委青年項目,項目負責人, 2012.04-2015.03
8. 國家海洋局合作項目,項目負責人, 2013.01-2015.10
9. 教育部新教師基金, 項目負責人, 2011.01-2013.12
10. 橫向項目-中國神華,項目負責人, 2012.03-2012.05
11. 橫向項目-新奧集團,項目負責人, 2010.05-2011.08
12. 橫向項目-天大天久,項目負責人, 2010.12-2011.08
發表論文
2020年:
[1] Yan Wang, Yao Nian, Akash N. Biswas, Wei Li, You Han*and Jingguang G. Chen*. Challenges and Opportunities in Utilizing MXenes of Carbides andNitrides as Electrocatalysts, Advanced Energy Materials. 2020,2002967(1-17) DOI: 10.1002/aenm.202002967
[2] Yao Nian, Zejian Dong,Shuangbao Wang, Yan Wang, You Han*, Chongmin Wang*, and Langli Luo*. Atomic-ScaleDynamic Interaction of H2O Molecules with Cu Surface. Physical Review Letter, 2020, 125: 156101(1-5)
[3] Langli Luo*, Yao Nian, Shuangbao Wang, Zejian Dong, YangHe, You Han*, and ChongminWang*, Real time atomic-scale visualization of Cu surface reversible activationin CO oxidation reaction. Angewandte Chemie-International Edition,2020, 59: 2505 – 2509.
[4] Yubing Hu, Yan Wang, Yulian Wang, Wei Li, Jinli Zhang and You Han*, High performanceof supported Cu-based catalysts modulated via phosphamide coordination inacetylene hydrochlorination. Applied Catalysis A, General, 2020, 591: 117408(1-10).
[5] You Han, Hongyu Zhang, Yu Li, et al. Ruthenium catalyst coordinated with[N+4444][PF6 ] ionic liquid for acetylene hydrochlorination. CatalysisToday, 2020, 355: 205-213.
[6] You Han, Yulian Wang,Tengzhou Ma, Wei Li, Jinli Zhang* and Minhua Zhang*, Mechanistic understandingof Cu-based bimetallic catalysts. Frontiersof Chemical Science and Engineering, 2020, 14: 689–748.
[7] You Han, Yulian Wang, Wan Wang, Yubing Hu, Yao Nian,Wei Li and Jinli Zhang*. Pyrrolidone ligand improved Cu‐based catalysts with high performance for acetylenehydrochlorination. Applied Organometallic Chemistry. 2020, e6066. https://doi.org/10.1002/aoc.6066.
[8] Ze Yan, Banu Örmeci*, You Han* and Jinli Zhang, Supercritical water oxidationfor treatment of wastewater sludge and recalcitrant organic contaminants. Environmental Technology & Innovation, 2020, 18: 100728(1-11).
[9] Cong Wang, Shaoyi Jia, Yongchao Zhang,Yao Nian, Yan Wang, You Han, et al,Catalytic reactivity of Co3O4 with different facetsin the hydrogen abstraction of phenol by persulfate. Applied CatalysisB: Environmental, 2020, 270: 118819(1-12).
[10] Wenbo Zhu, Hao Gong, You Han, Minhua Zhang,* and AdriC. T. van Duin*, Development of a Reactive Force Field for Simulations on theCatalytic Conversion of C/H/O Molecules on Cu-Metal and Cu-Oxide Surfaces andApplication to Cu/CuO-Based Chemical Looping. Journal of Physical Chemistry C, 2020, 124: 12512−12520.
[11] Mao Peng, Chenliang Ye, You Han, Ji-jun Zou, Wei Li and Jinli Zhang*,The effect of chlorine vacancy inCuCl2 (0 0 1) catalyst on the mechanism of SiCl4 dissociationinto SiHCl3: A DFT study. Applied Surface Science, 2020, 515: 146100(1-11).
2019年:
[1] Shuang Mei,Junjie Gu,Tengzhou Ma,Xiaoyan Li,Yubing Hu,Wei Li,Jinli Zhang,You Han*,N-dopedactivated carbon from used dyeing wastewater adsorbent as a metal-free catalystfor acetylene hydrochlorination. Chemical Engineering Journal, 2019, 371:118-129.
[2] You Han, Fang Chen, Tengzhou Ma, et al. Size Effect of a NiNanocatalyst on Supercritical Water Gasification of Lignin by ReactiveMolecular Dynamics Simulations. Industrial & Engineering Chemistry Research,2019, 58: 23014−23024.
[3] You Han, Tengzhou.Ma, Fang Chen, Wei Li and Jinli Zhang. Synergistic mechanism of Ni catalyst andsupercritical water during refractory organic wastewater treatment. Industrial& Engineering Chemistry Research, 2019, 58: 1535−1547.
[4] You Han, Tengzhou Ma, Fang Chen, et al. Supercritical watergasification of naphthalene over iron oxide catalyst: A ReaxFF moleculardynamics study. International Journal of Hydrogen Energy, 2019, 44: 30386-30498.
[5] Yan Wang, Yao Nian, Jinli Zhang, Wei Liand You Han*, MOMTPPCimproved Cu-based heterogeneous catalyst with high efficiency for acetylenehydrochlorination. Molecular Catalysis, 2019, 479: 110612(1-11).
[6] YaoNian, Jinli Zhang, Xiaoyan Li, Yan Wang, Wei Li,Pewee Datoo Kolubahand You Han*.Molecular design of ionic liquids as novel nonmetallic catalysts used inacetylene hydrochlorination reaction. Physical Chemistry Chemical Physics, 2019,21: 7635--7644.
[7] Xiaoyan Li,Yao Nian,shanshan shang,Haiyang Zhang,Jinli Zhang,You Han*,Wei Li*,Novel nonmetalcatalyst of supported tetraphenylphosphonium bromide for acetylene hydrochlorination.CatalysisScience & Technology, 2019, 9: 188-198.
[8] Ting Zou, You Han, Xinxue Li, Jinli Zhangand Yan Fu*. Unexpected catalytic activity of Pd(II)-coordinated nucleotides inhydrogenation reduction. Colloids and Surface A: Physicochemical andEngineering Aspects, 2019, 560: 344-351.
[9] Songtao Long, Fang Chen, Fei Ding*, You Han, Xingjiang Liu and Qiang Xu*,Study on Crystal Growth Kinetics andPreferred Orientation for LiF Crystal in Dimethyl Sulfoxide/1,3-Dioxolane-basedElectrolyte. Journal of Physical Chemistry C,2019,123(46): 28048–28057.
2018年及以前:
[1] Tengzhou Ma, TingtingHu, Dandan Jiang, Jinli Zhang, Wei Li, YouHan* and Banu Ormeci*. Treatment ofpenicillin with supercritical water oxidation Experimental study of combinedReaxFF molecular dynamics. Korean Journal of Chemical Engineering, 2018, 35(4): 900-908.
[2] Xiaoyan Li, JinliZhang, You Han, Mingyuan Zhu,Shanshan Shang and Wei Li*. MOF-derived various morphologies of N-doped carboncomposites for acetylene hydrochlorination. Journal of Materials Science, 2018, 53(7): 4913-4926.
[3] Shanshan Shang, Wei Zhao, Yan Wang, Xiaoyan Li, JinliZhang, You Han* and Wei Li*.Highly efficient Ru@IL/AC to substitute mercuric catalyst for acetylene hydrochlorination.ACSCatalysis, 2017, 7: 3510−3520.
[4] Yu Li, Yanzhao Dong, Wei Li, You Han* and Jinli Zhang* Improvement of imidazolium-based ionicliquids on the activity of ruthenium catalyst for acetylene hydrochlorination. MolecularCatalysis, 2017, 443: 220–227.
[5] Dandan Jiang, Yan Wang, Ming Zhang,Jinli Zhang, Wei Li and You Han*.H2 and CO production through coking wastewater in supercriticalwater condition: ReaxFF reactive molecular dynamics simulation. International Journal of Hydrogen Energy, 2017, 42(15): 9667-9678.
[6] Junjie Gu, Yumiao Gao, Jinli Zhang, WeiLi, Yanzhao Dong and You Han*.Hydrochlorination of acetylene catalyzed by an activated carbon-supported ammoniumhexachlororuthenate complex. Catalysts, 2017, 7: 17(1-13).
[7] Jinli Zhang, KaigeGao, Suli Wang, Wei Li and You Han*.Performance of bimetallic PdRu catalysts supported on gamma alumina for2-ethylanthraquinone hydrogenation. RSC Advances, 2017, 7: 6447–6456.
[8] Hongyun Qin, Qin Xu,Wei Li, Xiuhu Dang, You Han,Kailiang Lei, Litao Zhou and Jinli Zhang*. Effect of Stator Geometry on theEmulsification and Extraction in the Inline Single-Row Blade-Screen High ShearMixer. Industrial & Engineering ChemistryResearch, 2017, 56(33):9376–9388.
[9] Shudan Zheng, You Han, Jinli Zhang and Wei Li*. Determination andcorrelation of solubility of linezolid form II in different pure and binarysolvents. Fluid Phase Equilibria, 2017, 432: 18–27.
[10] You Han, Dandan Jiang, Jinli Zhang* Wei Li, Zhongxue Gan and JunjieGu. The development, application and challenges of ReaxFF reactive force field usedin molecular simulations. Frontiers of Chemical Science andEngineering, 2016, 10(1): 16-38.
[11] Nan Meng, Dandan Jiang, Yang Liu, Zhiyuan Gao,Yaqin Cao, Jinli Zhang, Junjie Gu and YouHan*. Sulfur tansformation in coal during supercritical water gasification,Fuel,2016, 186: 394-404.
[12] Junjie Gu, Suli Wang,Zhiyuan He, You Han and JinliZhang*,Direct synthesis of hydrogen peroxide fromhydrogen and oxygen over activated-carbon-supported Pd-Ag alloy catalysts. Catalysis Science & Technology, 2016, 6: 809-817.
[13] Jinli Zhang, Jintao Gu, You Han, Wei Li, Zhongxue Gan and Junjie Gu. Supercritical water oxidation VS supercritical watergasification: Which process is better for explosive wastewater treatment? Industrial& Engineering Chemistry Research, 2015, 54: 1251–1260.
[14] JinliZhang, Jintao Gu, You Han,Wei Li, Zhongxue Gan and Junjie Gu. Analysisof degradation mechanism of disperse orange 25 in supercritical water oxidationusing molecular dynamic simulations based on the reactive force field. Journal of Molecular Modeling,2015, 21: 54-67.
[15] You Han, Mengxia Sun, Wei Li and Jinli Zhang. Influence of chlorine coordinationnumber on the catalytic mechanism of ruthenium chloride catalysts in the acetylenehydrochlorination reaction: A DFT study. Physical Chemistry Chemical Physics, 2015, 17:7720-7730.
[16] You Han, Zhiyuan He, Suli Wang, Wei Li and Jinli Zhang. Performance offacet-controlled Pd nanocrystals in 2 2-ethylanthraquinone hydrogenation. CatalysisScience & Technology., 2015, 5: 2630-2639.
[17] You Han, Zhiyuan He, Yongchuan Guan, Wei Li and Jinli Zhang. High-performanceof PdAu/Al2O3 catalystwith special structural and electronic properties in the 2-ethylanthraquinone hydrogenationreaction. Acta Physico-Chimica Sinica, 2015, 31: 729-737.
[18] JinliZhang, Yujia Wu, Anyuan Liu, Wei Li and You Han*.Mechanistic insight into the selective crystallization of the metastable polymorphof tolbutamide in ethanol-water solution. RSC Advances, 2014, 4: 21599-21607.
[19] Junjie Gu, Qian Du, You Han et al., Nitrogen-doped carbon supports withterminated hydrogen and their effects on active gold species: a densityfunctional study. Physical ChemistryChemical Physics, 2014, 16: 25498-25507.
[20] Jinli Zhang, Xian Wang, Yan Fu, You Han, Jingyao Cheng, Yanqing Zhang and Wei Li*.Highly active subnano palladium clusters embeded in I-motif DNA.Langmuir,2013, 29: 14345-14350.
[21] Haiyang Zhang, Bin Dai, XugenWang, Wei Li, You Han, Junjie Gu and JinliZhang,Non-mercurycatalytic acetylene hydrochlorination over bimetallic Au-Co(III)/SAC catalystsfor vinyl chloride monomer production. Green Chemistry, 2013, 15: 829-836.
[22] JinliZhang, Xiaoxia Weng, You Han,Wei Li, JingyaoCheng, Zhongxue Gan and Junjie Gu. The effect ofsupercritical water on coal pyrolysis and hydrogen production: A combinedReaxFF and DFT study. Fuel, 2013, 108: 682-690.
[23] JinliZhang, Xiaoxia Weng, You Han,Wei Li, Zhongxue Gan and Junjie Gu. Effect ofsupercritical water on the stability and activity of alkaline carbonatecatalysts in coal gasification,Journal of Energy Chemistry, 2013,22: 459-467.
[24] You Han, Ming Zhang, WeiLi and Jinli Zhang. Effect of TiO2 support on the structural and electronicproperties of PdmAgn clusters: A first-principles study. Physical Chemistry Chemical Physics, 2012, 14: 8683–8692.
[25] Jinli Zhang, Zhenghua He, Wei Li and You Han*. Deactivation mechanismof AuCl3 catalyst in acetylene hydrochlorination reaction: A DFT study.RSCAdvances, 2012, 2: 4814–4821.
[26] Jiangjiexing Wu, YanFu, Zhenghua He, You Han, LinZheng, Jinli Zhang and Wei Li. Growth mechanisms of fluorescent silver clusters regulated by polymorphicDNA templates: A DFT study. Journal of Physical Chemistry B, 2012,116: 1655−1665.
[27] Jinli Zhang, Zhenghua He, You Han* Wei Li, Jiangjiexing Wu, Zhongxue Gan and JunjieGu. Nucleation and growth of Na2CO3clusters in supercritical water through molecular dynamics simulation. Acta Physico-Chimica Sinica, 2012, 28:1691-1700.
[28] Chenhong Xu, You Han* andMingyang Chi. Cu2O-based photocatalysis. Progress in Chemistry,2010, 22: 2290-2297.
[29] You Han, Chang-jun Liu andQingfeng Ge. Effect of Pt clusters on methanol adsorption and dissociation overperfect and defective anatase TiO2(101) surface. Journalof Physical Chemistry C, 2009, 113: 20674–20682.
[30] Jianjun Liu, You Han andQingfeng Ge. Effect of doped transition metal on reversible hydrogen release/uptakefrom NaAlH4. Chemistry A European Journal, 2009, 15: 1685–1695.
[31] Jinli Zhang, Ming Zhang, You Han, Wei Li, Xiangkun Meng and Baoning Zong. Nucleation and growth of palladium clusterson anatase TiO2(101) surface: A first principles study, Journalof Physical Chemistry C, 2008, 112: 19506-19515.
[32] You Han, Chang-jun Liu and Qingfeng Ge. Effectof surface oxygen vacancy on Pt cluster adsorption and growth on the defective anataseTiO2(101) surface. Journal of Physical Chemistry C, 2007,111: 16397-16404.
[33] YunxiangPan, You Han and Chang-jun Liu. Pathwaysfor steam reforming of dimethyl ether under cold plasma conditions: A DFT study.Fuel, 2007, 86:2300-2307.
[34] You Han, Chang-jun Liu and Qingfeng Ge.Interaction of Pt clusters with TiO2 anatase (101) surface: A first principlesstudy. Journal of Physical Chemistry B, 2006, 110:7463-7472.
[35] You Han, Jian-guo Wang, Dang-guo Cheng andChang-jun Liu. Density functional Theory study of methanol conversion via cold plasma.Industrial& Engineering Chemistry Research, 2006, 45:3460-3467.
合作交流
1. 華東理工大學,2020年12月8日,上海,邀請學術報告
2. 第二屆全國化工過程強化大會,2020年12月5-7日,南京,邀請報告
3. 2020-女催化科學家論壇,2020年11月25-27日,福州,口頭報告
4. 第十二屆全球華人化工學者研討會,2020年10月,南京,口頭報告
5. 第19屆全國催化學術會議,2019年10月,重慶,口頭報告
6. 5international conferences on Sustainable Chemical Product and ProcessEngineering,2019年06月,天津,邀請報告
7. 10 International Conference onEnvironmental Catalysis,2018年09月,天津,口頭報告
8. 第256屆美國化學會年會,2018年8月,美國波士頓,邀請報告
9. 第18屆全國催化學術會議,2017年10月,天津,口頭報告
10. 第251屆美國化學會年會,2016年3月13-17日,聖地亞哥,邀請報告
11. The InternationalSymposium on Advances in Computational Materials on Catalysis and Photovoltaics,2014年5月25-28日,天津,大會邀請報告
12. 2013中國化工學會年會,2013年9月23-25日,南京,口頭報告
13. 第246屆美國化學會年會,2013年9月8-12日,印第安納波利斯,口頭報告
14. 計算催化及能源化工國際研討會,2013年5月20-22日,天津,口頭報告
15. 第三屆化學工程青年科學家學術交流研討會,2013年5月14-17日,天津,口頭報告
