个人信息
个人简介

个人简介

2002年本科毕业于武汉大学环境化学系;2007年获中科院化学所物理化学专业博士学位。2007至2013年先后在加拿大新布伦瑞克大学(The University of New Brunswick)和德国乌帕塔尔大学(Bergische Universitaet Wuppertal)从事博士后研究工作,得到德国洪堡基金会AvH (2008-2010年)和德国自然科学基金会DFG (2011-2013年)独立项目资助。2013年加盟苏州大学材料与化学化工学部,现任化学院物理化学系特聘教授,博士生导师。2013年入选中组部第五批青年千人计划。2014年获国家自然科学基金优秀青年基金。





学习与工作经历

2013 苏州大学材料与化学化工学部, 特聘教授、博士生导师

2010 德国Wuppertal大学无机化学系, 德国科学基金会DFG项目负责人

2008 德国Wuppertal大学无机化学系, 洪堡访问学者 指导教授:Helge Willner

2007 加拿大NewBrunswick大学化学系,博士后 指导教授:Jack Passmore

2007 中国科学院北京化学研究所,分子动态与稳态结构国家重点实验室,理学博士 指导教授:王殿勋

2002 武汉大学,化学与环境科学学院,环境化学专业,理学学士

2013 Professor, College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou, China

2010 DFG project scientist, Bergische Universitaet,Wuppertal, Germany

2008 Alexander von Humboldt Fellow, BergischeUniversitaet, Wuppertal, Germany

2007 Postdoc, University of New Brunswick, Fredericton,Canada

2007 PhD,Institute of Chemistry, Chinese Academy of Sciences, Beijing, China

2002 Bachelor, Departmentof Resource and Environmental Science, Wuhan University, China


学术兼职

2016 Science Report,  Editorial Board member (http://www.nature.com/srep/about/editorial-board, Impact Factor: 5.525)

2014 Chinese Chemical Letters, 青年编委 (http://www.elsevier.com/journals/chinese-chemical-letters/1001-8417, Impact Factor: 1.947) 


研究领域

Research Interest


Structural characterization of fundamentally important small molecules (新颖功能小分子的结构与反应)


We are strongly interested in small molecules bearing unusual structural and bonding properties. These small inorganic or organic molecules serve as important model systems for both synthetic chemists and theoreticians. Due to the simplicity in composition, their structure and reactivity might have been extensively explored by advanced quantum chemical calculations. Their spectroscopic and structural properties can be also easily predicted. However, due to the intrinsic metastability, still a large number of parent small molecules remain experimentally unknown. By using sophisticated low-temperature synthetic techniques, we are able to isolate milligram scale of such compounds like polyazides and derivatives for full characterization and potential applications.



Spectroscopic detection of key reactive intermediates (关键反应中间体的光谱探测)


Reactive intermediates, ranging from fleeting molecules to short-livedradicals and ions, have attracted numerous attention, not only because of thegreat challenge to experimentally capture these species, the unknown chemistryand underlying reaction mechanisms have also continuously stimulated largeamount of theoretical studies. Based on our low-temperature synthetic techniques, newly constructed matrix-isolation machine, and specially designed photolysis and pyrolysis instruments, we will focus mainly on four classes ofreactive intermediates: 1) nitrenes and related species which play important roles in synthetic chemistry; 2) small ring systems that may exist ininterstellar medium, 3) prototypical multiple-bonded species as building blocksfor polymer chemistry; 4) atmospherically important key intermediates involvedi n photochemical reactions of organic pollutants.



Reaction mechanism and theory (反应机理与相关理论)


The conclusive identification of key intermediateswill provide valuable information for interpreting underlying reaction mechanism. We seek to understand and update the mechanisms of classical organicrearrangement reactions from both aspects of experiment and theory.



Development of new spectroscopy techniques (发展新光谱探测技术)


New spectroscopy instruments based on low-temperature and laser techniques will be built; they will be utilized for monitoring chemical behavior of trace reactive species in complex systems.


基本信息
头像




曾小庆

职称:教授

院部/部门:材料与化学化工学部

学历:

学位:

毕业学校:

毕业专业:

联系方式

通讯地址:苏州市仁爱路199号,苏州大学独墅湖校区701楼1619室

邮政编码:215123

电子邮箱:xqzeng@suda.edu.cn

联系电话:65883583

传真号码:

办公地点:材料与化学化工学部

科学研究


荣誉与奖励:


Lindau Nobel Laureate Meeting Scholarship (2006)     德国诺贝尔学者大会奖学金 (2006)


Alexander von Humboldt Fellowship (2008)                   德国洪堡奖学金 (2008)


1000 Young Talent Program of China (2013)                 中组部第五批“青年千人计划” (2013)


National Science Foundation of China (2014)               国家自然科学基金优秀青年基金 (2014)



重要学术会议:


2016.05; The International Symposium on New Molecules and Clusters, Shanghai; Invited talk: Singlet Nitrenes: Direct Observation and Reactivity;

2014.04; The International Symposium on Reactive Intermediates and Unusual Molecules (ISRIUM), Hiroshima, Japan; Invited talk: Alpha-Oxo Nitrenes: Characterization and Applications for Preparing Synthetically Challenging Small Molecules;

2014.11; The 18th National Conference on Molecular Spectroscopy, Suzhou, China; Invited talk: Spectroscopy of Novel Sulfur-Containing Species;


学术报告:

 

 

  

学术访问:

 

 

 

左: 2016年德国Freie Universitat Berlin大学无机化学教授Prof. Dr. Sebastian Hasenstab-Riedel来访; 

右: 2017年德国Philipps-Universit?t Marburg大学理论化学教授Prof. Dr. Gernot Frenking来访;

硕士研究生前往日本广岛大学Hiroshima University的Prof. Manabu Abe教授课题组合作EPR研究


科研团队

Zeng's Group 2017

Zeng's Group 2016

Zeng's Group 2015

Zeng's Group 

2014                                                   Instruments


科研团队
论文

(44) Wu, Z.; Chen, C. Y.; Liu, J.; Lu, Y.; Xu, J.; Liu, X. Y.; Cui, G. L.; Tralbelsi, T.; Francisco, J. S.; Zeng. X. Q. The Caged Nitric Oxide–Thiyl Radical Pairs. Submitted. 2018.

(43) Chu. X. X.; Song, C.; Yang, Y.; Zeng. X. Q. Oxidation of phosphinidene oxide: Formation of dioxaphosphirane oxide with oxygen scrambling. Chem. Commun. 2018, DOI: 10.1039/C8CC08945K.

(42) Dong, X. L.; Deng, G. H.; Xu, J.; Li, H. M.; Zeng. X. Q. Decomposition of Sulfonyl Azide Isocyanate and Sulfonyl Diazide: The Oxygen-Shifted Curtius Rearrangement via Sulfonyl Nitrenes. J. Phys. Chem. A 2018, 122, 8511–8519.

(41) Lu, Y.; Li, H, M.; Wan. H. B.; Liu, Q.; Deng, G. H.; Zeng. X. Q. Flash vacuum pyrolysis of sulfamoyl azides and chlorides: Facile gas-phase generation of transient N-sulfonylamines. J. Anal. Appl. Pyrol. 2018, 134, 476-483.

(40) Liu, Q.; Wan. H. B.; Lu, Y.; Lu, B.; Zeng. X. Q. Photodecomposition of 1H‐Pyrrole Carbonyl Azides: Direct Observation of Singlet 1H‐Pyrrole Carbonyl Nitrenes and Triplet 1H‐3‐Pyrrylnitrene. Eur. J. Org. Chem. 2018, doi.org/10.1002/ejoc.201800830.


(39) Chu, X. X.; Yang, Y.; Lu, B.; Wu, Z.; Qian, W. Y.; Song, C.; Xu, X. F.; Abe, M.;  Zeng, X. Q. Methoxyphosphinidene and Isomeric Methylphosphinidene Oxide. J. Am. Chem. Soc. 2018, 140, 13604–13608.

(38) Wu, Z.; Song, C.; Liu, J.; Lu, B.; Lu, Y.; Trabelsi, T.; Francisco, J. S.; Zeng, X. Q. Photochemistry of OPN: Formation of Cyclic PON and Reversible Combination with Carbon Monoxide. Chem. Eur. J. 2018, 24, 14627-14630.

(37)  Xu, J.; Wu, Z.; Wan, H. B.; Deng, G. H.; Lu, B.; Eckhardt, A. K.; Schreiner, P. R.; Trabelsi, T.; Francisco, J. S.; Zeng, X. Q. Phenylsulfinyl Radical: Gas-phase Generation, Photoisomerization, and Oxidation. J. Am. Chem. Soc. 2018, 140, 9972–9978.

(36)  Lu, Y.; Li, H. M.; Abe, M.; Begue, D.; Wan, H. B.; Deng, G. H.; Xu, J.; Liu, K.; Zeng, X. Q. Sulfamoyl Nitrenes: Singlet or Triplet Ground State?. Chem. Common. 2018, 54, 6136-6139.

(35) Dong, X. L.; Deng, G. H.; Xu. J. Lu, B.;  Trabelsi, T.; Francisco, J. S.; Zeng, X. Q. Spectroscopic Identification of H2NSO and syn- and anti-HNSOH Radicals. Angew. Chem. Int. Ed. 2018, 57, 7513-7517.

(34) Wu. Z.; Wan, H. B.; Xu. J. Lu, B.;  Eckhardt, A. K.; Schreiner, P. R.; Xie, C. J.; Guo, H.; Zeng, X. Q. The Near-UV Absorber OSSO and Its Isomers. Chem. Common.. 2018, 54, 4517-4520.

 

(33) Wu. Z.; Feng, R. J.; Xu. J.; Lu. Y.; Lu, B.; Yang, T.; Frenking, G.; Trabelsi, T.; Francisco, J. S.; Zeng, X. Q. Photoinduced Sulfur-Nitrogen Bond Rotation and Thermal Nitrogen Inversion in Heterocumulene OSNSO. J. Am. Chem. Soc. 2018, 140, 1231–1234.

(32) Feng, R. J.; Lu. Y.; Deng, G. H..; Xu. J.; Wu. Z.; Li, H. M.; Liu. Q.; Norito Kadowaki; Manabu Abe; Zeng. X. Q. Magnetically Bistable Nitrenes: Matrix Isolation of Furoylnitrenes in Both Singlet and Triplet States and Triplet 3-Furylnitrene. J. Am. Chem. Soc. 2018, 140, 10–13.

(31) Wu. Z.; Lu. B.; Feng, R. J.; Xu. J.; Lu. Y.; Wan H. B.; André K. Eckhardt; Peter R. Schreiner; Changjian Xie; Hua Guo; Xiaoqing Zeng Capture of SO3 isomers in the oxidation of sulfur monoxide with molecular oxygen. Chem. Common. 2018, 54,  1690–1693.

(30) Feng, R. J.; Wu, Z.; Zeng, X. Q. Synthesis, conformation, and photochemistry of difluoroacetyl isocyanate CF2HC(O)NCO and isothiocyanate CF2HC(O)NCS. J. M. S. DOI: 10.1016/j.molstruc.2017.10.109.

(29) Wan, H. B.; Xu, J.; Liu, Q.; Li, H. M.; Lu, Y.; Abe, M.; Zeng, X. Q.; Contrasting Photolyticand Thermal Decompositionof Phenyl Azidoformate: the Curtius Rearrangement VersusIntramolecular C-H Amination. J. Phys. Chem. A. DOI:10.1021/acs.jpca.7b07969.

(28) Wu, Z.; Xu, J.; Deng, G. H.; Chu, X. X.; Sokolenko, L.; Trabelsi, T.; Francisco, J. S.; Eckhardt, A. K.; Zeng, X. Q.; Schreiner, P. R. The Trifluoromethyl Sulfinyl And Oxathiyl Radicals. Chem. -Eur J. 2018, 24,  1505–1508 .

(27) Wu, Z.; Xu, J.; Sokolenko, L.; Yagupolskii, Y. L.; Feng, R. J.; Liu, Q.; Lu, Y.; Zhao, L. L.; Fernandez, I.; Frenking, G.; Trabelsi, T.; Francisco, J. S.; Zeng, X. Q. Parent Thioketene S-Oxide H2CCSO: Gas-Phase Generation, Structure, and Bonding Analysis. Chem. –Eur. J. 2017, 23,  16566–16573 .

(26) Wu, Z.; Feng, R. J.; Li, H. M.; Xu, J.; Deng, G. H.;Abe, M.;Bégué, D.; Liu, K.; Zeng, X. Q. Fast Heavy-Atom: Tunneling in Trifluoroacetyl Nitrene. Angew. Chem. Int. Ed. 2017, DOI: 10.1002/ange.201710307.

(25) Wan, H. B.; Li, H. M.; Xu, J.; Wu, Z.; Liu, Q. F.; Chu, X. X.; Abe, M.; Bégué, D.;  Zeng, X. Q.N-Methylcarbamoyl Azide: Spectroscopy, X-ray Structure and Decomposition via Methylcarbamoyl Nitrene. Org. Chem. Front. 2017, 4, 1839–1848.

(24) Wu, Z.; Xu, J.; Liu, Q. F.; Dong, X. L.; Li, D. Q.; Holzman, N.; Frenking, G.; Trabelsi, T.; Francisco,J. S.; Zeng, X. Q.The Hypothiocyanite Radical OSCN and Isomers. Phys. Chem. Chem. Phys. 201719, 16713–16720.

(23) Liu, Q. F.; Wu, Z.; Xu, J.; Lu, Y.; Li, H. M.; Zeng, X. Q. Methoxysulfinyl Radical CH3OSO: Gas-Phase Generation, Photochemistry, and Oxidation. J. Phys. Chem. A. 2017, 121, 3818–3825.

(22) Li, H. M.; Wu, Z.; Li, D. Q.; Wan, H. B.; Xu, J.; Abe, M; Zeng, X. Q. Direct Observation of Methoxycarbonylnitrene. Chem. Comm. 2017, 53, 4783–4786.

(21) Feng, R. J.; Wu, Z.; Xu, J.; Liu, Q. F.; Zeng, X. Q. Difluoroacetyl Azide: Synthesis, Characterization, and Decomposition. J. Anal. Appl. Pyrol. 2017, 125, 209–217.

(20) Wu, Z.; Liu, Q. F.; Li, D. Q.; Feng, R. J.; Zeng, X. Q. Flash Vacuum Pyrolysis of Methoxysulfinyl Azide: Stepwise Decomposition via Methoxysulfinyl Nitrene. J. Anal. Appl. Pyrol. 2017, 124, 610–617.

(19) Deng, G. H.; Dong, X. L.; Liu, Q. F.; Li, D. Q.; Li, H. M.; Sun, Q.; Zeng, X. Q. The Decomposition of Benzenesulfonyl Azide: A Matrix Isolation and Computational Study. Phys. Chem. Chem. Phys. 2017, 19, 3792-3799.

(18) Wu, Z.; Liu, Q. F.; Xu, J.; Sun, H. L.; Li, D. Q.; Song, C.; Andrada, D. M. A.; Frenking, G.; Trabelsi, T.;Francisco,J.S.; Zeng, X. Q. Heterocumulene Sulfinyl Radical OCNSO. Angew. Chem. Int. Ed. 2017, 56, 2140–2144.

(17) Deng, G. H.; Wu, Z.; Li, D. Q.; Linguerri, R.; Francisco, J. S.; Zen g, X. Q.Simplest N-Sulfonylamine HNSO2. J. Am. Chem. Soc. 2016, 138,11509–11512.

(16) Deng, G. H.; Li, D. Q.; Wu, Z.; Li, H. M.; Bernhardt, E.; Zeng, X. Q. Methanesulfonyl Azide: Molecular Structure and Photolysis in Solid Noble Gas Matrices. J. Phys. Chem. A. 2016, 120, 5590–5597.

(15) Li, D. Q.; Schwabedissen, J.; Stammler, H. G.; Mitzal, N. W.; Willner, H.;Zeng, X. Q. Dichlorophosphanyl Isocyanate–Spectroscopy,Conformation and Molecular Structure in the Gas Phase and the Solid State. Phys. Chem. Chem. Phys. 2016, 18,26245–26253.

(14) Li, H. M.; Wan, H. B.; Wu, Z.; Li, D. Q.; Bégué, D.; Wentrup, C.; Zeng, X. Q. Direct Observation of the Carbamoylnitrenes. Chem–Eur. J. 2016, 22, 7856–7862.

(13) Liu, Q. F.; Li, H. M.; Wu, Z.; Li, D. Q.; Beckers, H.; Rauhut, G.; Zeng, X. Q. Photolysis of Carbonyl Diisocyanate: Generation of IsocyanatocarbonylNitrene and Diazomethanone. Chem – Asian. J. 201611, 29532959.

(12) Wu, Z.; Li, D. Q.; Li, H. M.; Zhu, B. F.; Sun, H. L.; Francisco, J. S.; Zeng, X. Q. Gas-Phase Generation and Decomposition of a Sulfinylnitrene into the Iminyl Radical OSN. Angew. Chem. Int. Ed. 2016, 55, 1507–1510.

(11) Zhu, B. F.; Zeng, X. Q.; Beckers, H.; Francisco, J. S.; Willner, H. The Methylsulfonyloxyl Radical,CH3SO3. Angew. Chem. Int. Ed. 2015, 54, 11404–11408.

(20) Li, H. M.; Wu, Z.; Li, D. Q.; Zeng, X. Q.; Beckers, H.; Francisco, J. S. A Singlet Thiophosphoryl Nitreneand Its Interconversion with Thiazyl and Thionitroso Isomers. J. Am. Chem. Soc. 2015, 137,10942–10945.

(9) Li, H. M.; Li, D. Q.; Zeng, X. Q.; Liu, K.; Beckers, H.; Schaefer, ???, H. F.; Esselman, B. J.; McMahon, R. J. Toward Understanding the Decomposition of Carbonyl Diazide (N3)2C=O and Formationof Diazirinone cycl-N2CO: Experiment and Computations. J. Phys. Chem. A. 2015, 119, 8903-8911.

(8) Li, D. Q.; Li, H. M.; Zhu, B. F.; Zeng, X. Q.; Willner, H.; Beckers, H.; Neuhaus,P.; Grote, D.; Sander, W. Decomposition of Fluorophosphoryl Diazide: A Joint Experimental and Theoretical Study. Phys. Chem. Chem.Phys. 2015, 17, 6433–6439.


(7) Wu, Z.; Li, H. M.; Zhu, B. F.; Zeng, X. Q.; Hayes, S. A.; Mitzel, N. W.; Beckers,H.; Berger, R. J. F. Conformational Composition, Molecular Structure and Decomposition of Difluorophosphoryi Azidein the Gas Phase. Phys. Chem. Chem. Phys. 2015, 17, 8784–8791.

(6) Zeng, X. Q.; Li, H. M.; Sun, H. L.; Beckers, B.; Willner, H.; Schaefer III, H. F. SN2P2: A Neutral Five-Membered Sulfur-Pnictogen (III) Ring. Angew. Chem. Int. Ed. 2015, 54, 1327–1330.

(5) Zeng, X. Q.; Antognini, A. F.; Beckers, H.; Willner, H. Isomers of Disulfur Dinitride, S2N2. Angew. Chem. Int. Ed. 2015, 54, 2758–2761.

(4) Sun, H. L.; Zhu, B. F.; Wu, Z.; Zeng, X. Q.; Beckers, H.; Jenkers, W. S. Thermally Persistent Carbonyl Nitrene: FC(O)N. J. Org. Chem. 2015, 80, 2006–2009.

(3) Zeng, X. Q.; Beckers, H.; Willner, H.; Neuhaus, P.; Grote, D.; Sander,W. Photochemistry of Matrix Isolated (Trifluoromethyl) sulfonyl Azide, CF3SO2N3. J. Phys. Chem. A 2015, 119, 2281–2288.

(2) Zeng, X. Q.; Beckers, H.; Seifert, J.; Banert, K. The Photochemical and Thermal Decomposition of Azidoacetylene in the Gas Phase, Solid Matrix, and Solutions. Eur.J. Org. Chem. 2014, 4077–4082.

(1) Zeng, X. Q.; Bernhardt, E.; Beckers, H.; Banert, K.; Hagedorn, M.; Liu,H. Formyl Azide: Properties and Solid-State Structure. Angew. Chem. Int. Ed. 201352, 3503–3506.


Before:

(1) Zeng, X. Q.; Beckers,H.; Willner, H. Difluoro-λ5-Phosphinonitrile F2P≡N: MatrixIsolation and Photoisomerization into FP=NF. Angew. Chem. Int. Ed. 2009, 48, 4828–4831.


(2) Zeng, X. Q.; Beckers,H.; Willner, H.; Neuhaus, P.; Grote, D.; Sander, W. Difluorophosphorylnitrene, F2P(O)N:Matrix Isolationand Unexpected Rearrangement to F2PNO. Chem–Eur.J. 2009, 15,13466–13473.


(3) Zeng, X. Q.; Beckers,H.; Willner, H. Photoisomerization of Matrix Isolated F2CS into Cis and Trans FCSF. Chem. Comm. 2009,34, 5162–5164.


(4) Zeng, X. Q.; Gerken,M.; Beckers, H.; Willner, H. Anomeric Effects in Sulfonyl Compounds: An Experimentaland Computational Study of Fluorosulfonylazide, FSO2N3, and Trifluoromethylsulfonylazide, CF3SO2N3. J.Phys. Chem. A. 2010, 114, 7624–7630.


(5) Zeng, X. Q.; Beckers,H.; Willner, H.; Lehmann, C. W. Bis(methanesulfonyl) Peroxide, CH3S(O)2OOS(O)2CH3: Spectroscopic, Structural, and Thermal Properties. Z. Anorg. Allg. Chem. 2010,636,2447–2453.


(6) Zeng, X. Q.;Gerken,M.; Beckers, H.; Willner, H. Synthesis and Characterization of Carbonyl Diazide, OC(N3)2. Inorg. Chem. 2010, 49,9694–9699.


(7) Zeng, X. Q.; Gerken,M.; Beckers, H.; Willner, H. Spectroscopic and Structural Studies of Difluorophosphoryl Azide F2P(O)N3, Difluorophosphoryl Isocyanate F2P(O)NCO, and Difluorophosphoric Acid Anhydride, F2(O)POP(O)F2. Inorg.Chem. 2010, 49, 3002–3010.


(8) Zeng, X. Q.; Beckers,H.;Willner, H. Elusive O═P≡N, ARare Example of Phosphorus σ2λ5-Coordination. J. Am. Chem. Soc. 2011, 133, 20696–20699.


(9) Zeng, X.Q.; Beckers,H.; Willner, H.; Stanton, J. F. Elusive Diazirinone, N2CO. Angew.Chem. Int. Ed. 2011,50, 1720–1723.


(10) Zeng, X.Q.; Beckers,H.; Willner, H. Matrix Isolation of Two Isomers of N4CO. Angew.Chem. Int. Ed. 2011, 50, 482–485.


(11) Zeng, X. Q.; Beckers,H.; Willner, H.; Grote, D.; Sander, W. The Missing Link: Triplet FluorocarbonylnitreneFC(O)N. Chem–Eur. J. 2011, 17,3977–3984.


(12) Zeng, X. Q.; Beckers,H.; Bernhardt, E.; Willner, H. Synthesis and Characterization of Sulfuryldiazide, O2S(N3)2. Inorg.Chem. 2011, 50,8679–8684.


(13) Zeng, X. Q.; Bernhardt,E.;Beckers, H.; Willner, H. Synthesis and Characterization of the Phosphorus Triazides OP(N3)3 and SP(N3)3. Inorg. Chem. 2011, 50, 11235–11241.


(14) Zeng, X. Q.; Beckers,H.; Willner, H.; Berger, R. J. F.; Hayes, S. A.; Mitzel, N. Structure and ConformationalProperties of Azido (Difluoro) Phosphane, F2PN3. Eur. J. Inorg. Chem. 2011, 895–905.


(15) Zeng, X. Q.; Beckers,H.; Willner, H.; Stanton, J.F. Fascinating Diazirinone (N2CO), A VioletGas. Eur. J. Inorg. Chem. 2012, 3403–3409.


(16) Zeng, X. Q.; Beckers,H.; Willner, H.; Francisco, J. S. Experimental Observation of the 16-electronSPN, SNP, and Cyclic PSN. Angew. Chem. Int. Ed. 2012, 51, 3334–3339.


(17) Zeng, X. Q.; Beckers,H.; Neuhaus, P.; Grote, D.; Sander, W. Elusive Fluorosulfinyl Nitrite Producedby Photolysis of Matrix-Isolated FS(O)2N. Z. Anorg. Allg. Chem. 2012, 638, 526–533.


(18) Zeng, X. Q.; Beckers, H.; Willner, H. The Iminyl Radical O2SN. Angew. Chem. Int. Ed. 2013, 52, 7981–7984.


(19) Zeng, X. Q.; Beckers,H.; Willner, H. Thermally Persistent Fluorosulfonyl Nitrene and Unexpected Formationof Fluorosulfonyl Radical. J. Am. Chem. Soc. 2013, 135, 2096–2099.


荣誉奖励
  • 1、
开授课程

教学

1. 物理化学(研究生、本科生课程)


2. 新生研讨课(本科生课程)


招生信息

1. 副教授与讲师招聘

   物理化学、有机化学专业,重点大学或中科院研究所毕业,具有海外留学经历、量子化学计算经验、及高水平论文发表者优先,名额有限。

2. 博士后招生专业

(1)理论量子化学

(2)物理化学

(3)有机化学

3. 博士研究生招生专业


(1)物理化学


(2)有机化学

(3)分析化学


4.学术型硕士研究生招生专业



(1)物理化学


(2)有机化学


欢迎应届毕业生加入本课题组攻读博士、硕士学位或从事博士后研究!