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苏远海

如图1所示,基本信息

姓名:苏远海
职称:特别研究员、博士生导师
邮箱:y.su@sjtu.edu.cn
主页:scce.sjtu.edu.cn
通讯地址:上海市东川路800号化学化工学院

2,教育经历
2002.9- 2006.7:天津大学化工学院,工学学士
2006.9-2011.9:中国科学院大连化学物理研究所,工学博士,导师:陈光文研究员和袁权院士

3,工作经历
2011.10-2012.02:中国科学院大连化学物理研究所,临时聘用
2012.03-2013.10:德国帕德博恩大学,博士后(洪堡学者,合作导师为Eugeny Kenig教授)


2013.11-2016.02:荷兰埃因霍温理工大学,博士后(玛丽·居里学者,合作导师为 Timothy Nol教授

2016.03-:很很鲁很很鲁视在线视频|香蕉伊人不卡在线看|天天鲁啪视频在线特别研究员、博导


4,研究方向
1)微反应技术,化工过程强化及流动化学
2)多相流体流动,传递现象及反应过程规律

3)有机化工、药物及功能材料连续合成

4)新型反应器设计,构建及过程放大,光化学及聚合反应工程

5,荣誉奖励


1) 2019获侯德榜化工科学技术青年奖;分别入选国际期刊Reaction Chemistry & Engineering及Journal of Flow Chemistry的Emerging Investigators(新锐科学家)

2)2014欧盟玛丽·居里研究奖学金

3)2013中国科学院百篇优秀博士论文
4) 2012德国洪堡奖学金


6,学术兼职

担任Springer旗下SCI刊物Journal of Flow Chemistry顾问编委及《高校化学工程学报》编委


7,代表性论文

After joining in SJTU


[28] Hong Zhang, Ke Lu, Yuzi Liu, Bomin Li, Yuanhai Su*, Rongyue Wang, Yingwen Cheng*,  Microfluidic Synthesis and Direct Loading of Pd Nanoparticles on Nitrogen Doped Carbon Supports in Deep Eutectic Solvents, ACS Applied Materials and Interfaces, 2020, under revision.


[27] Yang Song, Minjing Shang*, Junguo Li, Yuanhai Su*, Continuous and controllable synthesis of MnO2/PPy composites with core-shell structures for supercapacitors, Chemical Engineering Journal, under revision.


[26] Hong Zhang, Zhaoyu Yu, Yuanhai Su*, Research progress of the extraction enhancement with the use of microreactors coupled with ionic liquids (微反应器耦合离子液体强化萃取过程的研究进展),Chemical Industry and Engineering Progress (化工进展-化工过程强化专刊),特约稿件,accepted


[25] Guangxiao Li, Saier Liu, Xiaoyong Dou, Huilong Wei, Minjing ShangZheng-Hong Luo, Yuanhai Su*Synthesis of Adipic Acid through Oxidation of K/A oil and Its Kinetic Study in a Microreactor System, AIChE Journal, 2020, 10.1002/AIC.16289.


[24] Chong Shen, Qibo Zheng, Minjing Shang, Li Zha, Yuanhai Su*Using Deep Learning to Recognize Liquid-liquid Flow Patterns in Microchannels, AIChE Journal, 2020, e16260. (课题组第一篇有关人工智能、自动化控制与微通道结合的论文)


[23] W.H. Xu, Y.H. Su*, M.J. Shang, X.M. Lu, Q.H. Lu*Rapid Synthesis of Polyimide Precursors by Solution Polymerization Using Continuous-flow Microreactors, Chemical Engineering Journal, 2020, 397, 125361.


[22]  H. Zhang, Z.Y. Yu, T. Tian, L. Xiang, M.J. Shang*, C. Shen, Y.H. Su*, Continuous synthesis of 5-hydroxymethylfurfural using deep eutectic solvents and its kinetic study in microreactors, Chemical Engineering Journal,2020, DOI: 10.1016/j.cej.2019.123580.


[21]  Chong Shen, Minjing Shang, Hong Zhang, Yuanhai Su*, A UV-LEDs based photomicroreactor for mechanistic insights and kinetic studies in the norbornadiene photoisomerization, AIChE Journal,  2020, 66 (2): e16841.


[20]  Wenhua Xu, Xiaoru Ma, Yuanhai Su*, Yang Song, Minjing Shang, Xuemin Lu and Qinghua Lu*, Synthesis of highly transparent and thermally stable copolyimide with fluorine-containing dianhydride and alicyclic dianhydride, Journal of Applied Polymer Science, 2020, 137(17): 48603-48612.


[19] Peng Chen, Chong Shen, Min Qiu, Jing Wu, Yingjun BaiYuanhai Su*Synthesis of 5-fluoro-2-nitrobenzotrifluoride in a continuous-flow millireactor with a safe and efficient protocol, Journal of Flow Chemistry, 2020, 10, 207-218.



[18] Liang Xiang , Yang Song, Min Qiu, Yuanhai Su*, Synthesis of Branched Poly(butyl acrylate) Using the Strathclyde Method in Continuous-flow Microreactors, Industrial & Engineering Chemistry Research, 2019,  58, 47, 21312-21322.


[17]  X. Pu, B.H. ZhangY.H. Su*, Heterogeneous photocatalysis in microreactors for efficient reduction of nitrobenzene to aniline: mechanisms and energy efficiency, Chemical Engineering & Technology, 2019, 42, 1-9


[16]  Y. Song, S.E. Liu, B.Y. Wang, M.J. Shang*, L.L. Lin, Y.H. Su*Continuous and controllable preparation of polyaniline with different reaction media in microreactors for supercapacitor applications, Chemical Engineering Science, 2019, 207,820-828.


[15]  H. Zhang, M.J. Shang*, C. Shen, G.X. Li, Y.H. Su*, Continuous extraction of gold (III) using pyridine ionic liquid based water-in-oil microemulsion in microreactors,  Industrial & Engineering Chemistry Research, 2019,58, 28, 12729-12740.


[14]  H. Zhang, M.J. Shang*, Y. Song, Y.H. Su*, Continuous synthesis of tetraalkylammonium based ethyl sulphate ionic liquid and its kinetic study in microreactors, AIChE Journal, 2019, 65, 1245-1255.


[13]  L. Zha, M.J. Shang, M. Qiu, H. Zhang, Y.H. Su*, Process intensification of mixing and chemical modification for polymer solutions in microreactors based on gas-liquid two-phase flowChemical Engineering Science,  2019, 195, 62–73.


[12] G.X. Li, X.Pu, M.J. Shang, L. Zha,  Y.H. Su*, Intensification of liquid-liquid two-phase mass transfer in a capillary microreactor system, AIChE Journal, 2019, 65: 334–346.


[11] M. Qiu, L. Zha, Y. Song, L. Xiang, Y.H. Su*,  Numbering-up of Capillary microreactors for homogeneous processes and its application in free radical polymerization,  Reaction Chemistry & Engineering, 2019,4,351-361. 


[10] Y.H. Su*, Y. Song, L. Xiang,  Continuous-flow Microreactors for Polymer Synthesis: Engineering Principles and Applications, Topics in Current Chemistry, 2018, 376:44.


[9] Y. Song, J.N. Song, M.J. Shang, W.H. Xu, S.E. Liu, B.Y. Liu, Q.H. Lu, Y.H. Su*,
 Hydrodynamics and mass transfer performance during the chemical oxidative polymerization of aniline in microreactors,  Chemical Engineering Journal, 2018, 353, 769-780 (corrigendum: CEJ 2019, 355,367-368).


[8] Y. Song, M.J. Shang*, H. Zhang, W.H. Xu, X. Pu, Q.H. Lu, Y.H. Su*, Process characteristics and rheological properties of free radical polymerization in microreactors,  Industrial & Engineering Chemistry Research, 2018, 57,10922-10934.


[7] L. Zha, X.Pu, M.J. Shang, G.X. Li, W.H. Xu, Q.H. Lu, Y.H. Su*,A study on the micromixing performance in microreactors for polymer solutions, AIChE Journal, 2018, 64: 3479–3490. 


[6]X. Pu, Y.H. Su*, Heterogeneous catalysis in microreactors with nanofluids for fine chemicals syntheses: Benzylation of toluene with benzyl chloride over silica-immobilized FeCl3 catalyst, Chemical Engineering Science, 2018,184, 200-208.


[5]W.H. Xu, Y.H. Su*, Y. Song, M.J. Shang, L. Zha, Q.H. Lu*, Process analysis on preparation of cyclobutanetetracarboxylic dianhydride in a photomicroreactor within gas-liquid Taylor flow, Industrial & Engineering Chemistry Research, 2018, 57, 2476-2485.


[4] Y. Song, M.J. Shang, G.X Li, Z.H. Luo, Y.H. Su*, Influence of mixing performance on polymerization of acrylamide in capillary microreactors, AIChE Journal, 2018, 64, 1828-1840.


[3] G.X. Li, M.J. Shang, Y. Song,Y.H. Su*,Characterization of liquid-liquid mass transfer performance in a capillary microreactor system, AIChE Journal,2018, 64, 1106–1116.


[2] K. Kuijpers, M.A. H. van Dijk, Q.G. Rumeur, V. Hessel, Y.H. Su*, T. Nol*, A sensitivity analysis of a numbered-up photomicroreactor system,  Reaction Chemistry & Engineering, 2017, 2, 109–115.

 

[1] X. Pu, G.X. Li, Y. Song,M.J. Shang, Y.H. Su*, Droplet coalescence phenomena during liquid-liquid heterogeneous reactions in microreactors, Industrial & Engineering Chemistry Research, 2017, 56 (43), 12316–12325.




Before joining in SJTU


[1] Y.H. Su, K. Kuijpers, V. Hessel, T. Nol*, A convenient numbering-up strategy for the scale-up of gas-liquid photoredox catalysis in flow, Reaction Chemistry & Engineering, 2016, 1, 73-81.
[2]  M.J. Shang, T. Nol, Y.H. Su, V. Hessel*, Kinetic study of hydrogen peroxide decomposition at high temperatures and concentrations in two capillary microreactors, AIChE Journal, 2017, 63: 689–697.

[3]. N.J.W. Straathof#, Y.H. Su#, V. Hessel, T. Nol*, Gas-liquid visible light photoredox catalysis in continuous-flow photochemical reactors, Nature Protocols, 2016, 11, 10-21. #Authors contributed equally. 
[4] Y.H. Su, K. P. L. Kuijpers,N. Knig,V. Hessel,T. Nol,A Mechanistic Investigation of theVisible‐LightPhotocatalytic Trifluoromethylation of Heterocycles Using CF3I in Flow,Chemistry - A European Journal,2016,35(22):12295-12300.
[5] H.P.L. Gemoets, Y.H. Su, M.S. Shang, V. Hessel, R. Luque, T. Nol*, Liquid phase oxidation chemistry in continuous-flow microreactors, Chemical Society Reviews, 2016, 45, 83-117.
[6] Y.H. Su, V. Hessel, T. Nol*, A compact photomicroreactor design for kinetic studies of gas-liquid photocatalytic transformations, AIChE Journal, 2015, 61, 2215–2227.
[7] Y.H. Su, G.W. Chen, E.Y. Kenig*, An experimental study on the numbering-up of microchannels for liquid mixing, Lab on a Chip, 2015, 15, 179-187.
[8] Y.H. Su, A., Talla, V. Hessel, T. Nol*, Controlled Photocatalytic Aerobic Oxidation of Thiols to Disulfides in an Energy Efficient Photomicroreactor, Chemical Engineering & Technology, 2015, 38, 1733-1742.
[9] Y.H. Su, N.J.W. Straathof, V. Hessel, T. Nol*, Photochemical Transformations Accelerated in Continuous-Flow Reactors: Basic Concepts and Applications, Chemistry - A European Journal, 2014, 20, 10562 -10589.
[10] Y.H. Su, A. Lautenschleger, G.W. Chen, E.Y. Kenig*, A numerical study on liquid mixing in multi-channel micromixers, Industrial & Engineering Chemistry Research, 2014, 53, 390–401.
[11] Y.H. Su, G.W. Chen*, Q. Yuan, Effect of viscosity on hydrodynamics of liquid processes in microchannels, Chemical Engineering & Technology, 2014, 37, 427-434.
[12] E.Y. Kenig*, Y.H. Su, A. Lautenschleger, P. Chasanis, M. Grünewald, Micro-separation of fluid systems: A state-of-the-art review, Separation and Purification Technology, 2013, 120, 245-264.
[13] Y.H. Su, G.W. Chen*, Q. Yuan, Influence of hydrodynamics on liquid mixing during Taylor flow in a microchannel, AIChE Journal, 2012, 58: 1660-1670.
[14] Y.Z. Chen, Y.H. Su, F.J. Jiao, G.W. Chen*, A simple and efficient synthesis protocol for sulfonation of nitrobenzene under solvent-free conditions via a microreactor, RSC Advances, 2012, 2: 5637-5644.
[15] Y.H. Su, Y.C. Zhao, F.J. Jiao, G.W. Chen*, Q. Yuan, The intensification of rapid reactions for multiphase systems in a microchannel reactor by packing microparticles, AIChE Journal, 2011, 57: 1409-1418.
[16] Y.H. Su, G.W. Chen*, Q. Yuan, Ideal micromixing performance in packed microchannels, Chemical Engineering Science. 2011, 66: 2912-2919.
[17] Y.H. Su, Y.C. Zhao, G.W. Chen*, Q. Yuan, Liquid-liquid two-phase flow and mass transfer characteristics in packed microchannels, Chemical Engineering Science. 2010, 65: 3947-3956.
[18] Y.H. Su, G.W. Chen*, Y.C. Zhao, Q. Yuan, Intensification of liquid-liquid two-phase mass transfer by gas agitation in a microchannel, AIChE Journal. 2009, 55, 1948-1958.

8、其他
目前课题组由特聘研究员(1)、助理研究员(1)、博士生/硕士生(15, 含联合培养),本科生(10余人)组成;承担国家自然科学基金面上项目、青年基金、中国博士后基金面上项目、上海科委创新行动计划等项目,且与企业开展合作。

欢迎具有化工、化学或物理背景,对研究工作较感兴趣的同学报考本实验室硕士和博士研究生及从事博士后研究。同时欢迎本科生到本研究室进行毕业设计及招收访问学生。

论文发表概述: 

截至2020-05,苏远海研究员已在AIChE J, Nature Protocols, Chem Soc Rev, Chem Eng J, Chem Eng Sci, Lab Chip, Chem Euro J等国际知名SCI期刊发表学术论文53篇,其中以通讯或第一作者身份发表39篇(化工三大刊20余篇,其中AIChE J 12篇),出版专著1章节,申请中国专利11件(授权4件)。




组内新闻

9. 2020年5月30日课题组宋扬顺利通过博士答辩!祝贺宋扬博士(课题组毕业的首位博士)!

8. 近期(2019年底)课题组博士生宋扬获得2020年度上海交通大学优秀博士毕业生称号(前5%)。

7.  2019年11月3-6日,在2019年全国化学工程前沿博士生学术论坛上课题组博士生宋扬获得口头报告特优奖(全国共4名博士生获此奖项)。注:来自境内外60余所大学化工院系、科研院所的125名博士生参加此论坛,78名博士生作口头报告报告内容涉及绿色化工、功能高分子材料、能源化工、生物化工、医药化工等化学工程学科的多个高端领域。

6. 课题组博士生张红获2019年度研究生国家奖学金,祝贺!

5. 课题组刘塞尔获2019年度上海交通大学本科优秀毕业论文,祝贺!已保送本课题组深造。

4. 课题组首位硕士生查理顺利毕业(2018年度),获上海交大优秀毕业生称号,于4月份入职世界五百强跨国企业。

3. 课题组本科毕业生艾克然木·吐地获评为2018年度上海交通大学励志典型人物。

2. 李光晓(博士生)、宋扬(博士生)和查理(硕士生)获2018年度研究生国家奖学金;徐文华(硕博连读生)获荣昶领导力奖学金。祝贺以上同学!

1. 孟敏珊和马锋林执行的大创项目评为国家级大学生创新创业训练计划;王宝艺和刘赛尔执行的大创项目评为上海大学生创新活动计划。




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