张伟

  • 姓名: 张伟
  • 职称:教授(博士生导师)
  • 联系电话: 86-512-65884243
  • E-mail: weizhang@suda.edu.cn

学历及学术经历: 张伟,男,博士,1979年11月生。2001年本科毕业于安徽大学化学化工学院;2006年在苏州大学化学化工学院获有机化学专业博士学位,同年被苏州大学特聘为副教授留校工作。2009年正式被聘为副教授和硕士生导师,2013年破格晋升为教授,2014年晋升博士生导师。2005年7月至2005年8月赴新加坡国立大学E. T Kang教授和K. G. Neoh教授课题组作学术访问。2009年4月-2011年3月日本奈良先端科学技术大学院大学博士后(JSPS奖学金资助),合作导师藤木道也(Michiya Fujiki)教授。2015年11月-2016年2月,北海道大学访问教授,合作者中野環(Tamaki Nakano)教授。主要开设《高分子化学》以及《Materials Chemistry》(全英文教学)等课程。目前,在Adv. Funct. Mater, Chem. Eur. J., Macromolecules, Macromo. Rapid Commun, Soft Matter, Polym. Chem等杂志发表学术论文130余篇。申请专利20余项,其中12项已授权。

 

研究领域:超分子聚合物与组装;超分子手性自组装;多功能刺激响应材料;共轭高分子

 

获奖情况:

1)   教育部自然科学二等奖,排六,2010;

2)   江苏省自然科学进步二等奖,排六,2010,2012;

3)   苏州市科技进步一等奖,排六,2009;

4)   国际高分子论坛最佳墙报奖,2007;

5)   江苏省优秀本科设计三等奖和苏州大学优秀本科设计一等奖(指导教师),2008;

6)   苏州市自然科学优秀学术论文三等奖,2008,2010;

7)   校青年教师教学竞赛三等奖,2012。

             

主持项目:

1) 国家自然科学基金面上项目:芳香偶氮聚合物合成新方法研究(21574089),80.9万元,2016.1−2019.12,主持;

2) 国家自然科学基金面上项目:结合圆偏振光辐照和聚合物后分散技术制备光响应型聚合物手性纳米粒子(21374072),83万元,2014.1−2017.12,主持;

3) 国家自然科学青年基金项目:基于非手性偶氮苯主链共轭共聚物超分子手性光学开关的研究(21104052),25万元。2012.1−2014.12,主持;

4) 苏州市科技发展计划(应用基础研究(工业))项目:酞菁超分子纳米导线的光控有序组装(SYG201111),10万元,2011.7-2013.6,主持;

5) 科技部重大国际合作计划项目:基于光电应用的纳米材料制备及其应用基础研究(2011DFA50530),326万元,技术骨干(第三)。

 

代表性论文:

41.  Supramolecular Chirality in Achiral Polyfluorene: Chiral Gelation, Memory of Chirality, and Chiral Sensing Property. Y. Zhao, W. Zhang*, X. L. Zhu et al. Macromolecules 2016, 49, 3214.

40.  Synthesis and Characterization of Visible-Light-Activated Azo Hyperbranched Polymers. L. B. Wang, W. Zhang*, et al. Polym. Chem. 2016, 7, 5407.

39.  手性溶剂诱导非手性物质手性的研究进展(特约综述). 赵银,殷露,张伟*等,2016, 29, 20.

38.  Synthesis of diverse cyclic-brush polymers with cyclic polystyrene as a universal template via a grafting-from approach. S. S. Zhang, W. Zhang*, et al. Polym. Chem. 2016, 7, 2112.

37.  A strategy for tuning achiral main-chain polymers into helical assemblies and chiral memory systems. D. Yang, W. Zhang*, L. Zhang* and M. H. Liu* et al. Soft Matter 2015, DOI: 10.1039/c5sm02547h.

36    Preferential chiral solvation induced supramolecular chirality in optically inactive star Azo polymers: photocontrollability, chiralamplification and topological effects. L. Yin, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20156, 7045.

35.  The Suzuki coupling reaction as a post-polymerization modification: a promising protocol for construction of cyclic-brush and more complex polymers. Y. S. Wang, W. Zhang*, Z. B. Zhang*, X. L. Zhu* et al. Polym. Chem. 20156, 4669.

34.  Photocontrollable induction of supramolecular chirality in achiral side chain Azo-containing polymers through preferential chiral solvation. S. Q. Jiang, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20156, 4230.

33.  A Straightforward Protocol for the Highly Efficient Preparation of Main-Chain Azo Polymers Directly from Bisnitroaromatic Compounds by the Photocatalytic Process. L. B. Wang, W. Zhang*, X. L. Zhu et al. Macromolecules 201548, 1289.

32.  Photon magic: chiroptical polarisation, depolarisation, inversion, retention and switching of non-photochromic light-emitting polymers in optofluidic medium, M. Fujiki*, Y. Zhao, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20156, 1627.

31.  One-step pyrolytic synthesis of ZnO nanorods with enhanced photocatalytic activity and high photostability under visible light andUV light irradiation. N. Huang, Z. H. Wang* and W. Zhang* et al. J Alloys Compd2015648, 919.

30.  Supramolecular self-assembly and photovoltaic property of soluble fluorogallium phthalocyanine, J. Zhang, L. B. Wang, W. Zhang*, X. L. Zhu* et al. RSC Adv. 2014, 4, 29485.

29.  A novel azobenzene covalent organic framework, J. Zhang, L. B. Wang, W. Zhang*, X. L. Zhu* et al. CrystEngComm2014, 16, 6547.

28.  Limonene induced chiroptical generation and inversion during aggregation of achiral polyfluorene analogs: structure-dependence and mechanism, L. B. Wang, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20145, 2872.

27.  A novel approach to synthesize polymers for potential photodynamic therapy: from benzenedinitrile to phthalocyanine, L. B. Wang,W. Zhang*, X. L. Zhu et al. Polym. Chem. 20145, 5920.

26.  Chiroptical generation and amplification of hyperbranched p-conjugated polymers in aggregation states driven by limonene chirality, J. F. Liu, W. Zhang*, X. L. Zhu* et al. Polym. Chem. 20145, 784.

25.  Preparation and Characterization of Solution Processable Phthalocyanine-Containing Polymers via a Combination of RAFT Polymerization and Post-Polymerization Modification Techniques, J. Zhang, L. B. Wang, W. Zhang*, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem. 201452, 691.

24.  Design and property of thermoresponsive core–shell fluorescent nanoparticles via RAFT polymerization and suzuki coupling reaction, Z. Y. Xing, J. Zhang, W. Zhang*, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem. 201351, 4021.

23.  Cooperative self-assembly and crystallization into fractal patterns by PNIPAM-based nonlinear multihydrophilic block copolymers under alkaline conditions, S. T. SunP. Y. Wu*, W. Zhang*X.L. Zhu* et al. Polym. Chem. 20134, 5800.

22.  Chiral Self-Assembly of Designed Amphiphiles: Influences on Aggregate Morphology, T. G. Barclay*, K. Constantopoulos, W. Zhang, M. Fujiki et al. Langmuir 2013, 29, 10001.

21.  Mirror Symmetry Breaking and Restoration within μm-Sized Polymer Particles in Optofluidic Media by Pumping Circularly Polarised Light, M. Fujiki*, W. Zhang*, X. L. Zhu* et al. RSC Adv. 20133, 5213.

20.  溶剂手性转移法制备超支化共轭聚合物手性荧光纳米粒子. 张双双,刘江飞,张键,王来兵,张伟*,朱秀林*. 高分子学报2013,4,426.

19.  Effect of structural constraint on dynamic self-assembly behavior of PNIPAM-based nonlinear multihydrophilic block copolymers, P. Y. Wu*, W. Zhang*, X. L. Zhu et al. Soft Matter 20139, 1807.

18.  Facile one-pot/one-step technique for preparation of side-chain functionalized polymers: Combination of SET-RAFT polymerization of azide vinyl monomer and click chemistry. Q. Shen, W. Zhang*, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem. 201250, 1120.

17.  Unpolarized-Light-Driven Amplified Chiroptical Modulation Between Chiral Aggregation and Achiral Disaggregation of an Azobenzene-alt-Fluorene Copolymer in Limonene. W. Zhang*, K. Yoshida, M. Fujiki*. Macromolecules 201144, 5105.

16.  Chiroptical Nanofibers Generated From Achiral Metallophthalocyanines Induced by Diamine Homochirality. W. Zhang*, M. Fujiki*. X. L. Zhu. Chem. Eur. J. 201117, 10628.

15.  Synthesis and Aggregation Behaviors of Nonlinear Multiresponsive, Multihydrophilic Block Copolymers. W. D. Zhang, W. Zhang (Co-first Author), X. L. Zhu* et al. Macromolecules 201144, 3941.

14.  Programmed High-Hole-Mobility Supramolecular Polymers from Disk-Shaped Molecules. W. Zhang*, K. Ochi, M. Fujiki* et al.Adv. Funct. Mater201020, 3941.

13.  Ambidextrous optically copper(II) phthalocyanine supramolecules induced by peripheral group homochirality. W. Zhang*, A. Ishimaru, M. Fujiki* et al. New J. Chem 201034, 2310.

12.  Chlorodithiocarbamate Mediated RAFT Polymerization: A Novel Synthetic Method for ATRP Macroinitiators. W. Zhang, X. L. Zhu* et al. Macromol. React. Eng20104, 264.

11.  SET-RAFT Polymerization of Progargyl Methacrylate and One-pot/One-step Preparation of Side-chain Functionalized Polymer via Combination of SET-RAFT and Click Chemistry. W. D. Zhang, W. Zhang (Co-first Author), X. L. Zhu* et al. Macromo. Rapid Commun. 201031, 1354.

10.  Thermo-responsive Fluorescent Micelles from Amphiphilic A3B Miktoarm Star Copolymers Prepared via a Combination of SET-LRP and RAFT Polymerization. W. D. Zhang, W. Zhang (Co-first Author), X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem.201048, 4268.

9.    Preparation of Miktoarm Star-Block Copolymers PSn-b-PVAc4-n via Combination of ATRP and RAFT Polymerization. Y. S. Qiu,W. Zhang (Co-first Author), X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem201048, 5180.

8.    Universal Xanthate-Mediated Controlled Free Radical Polymerizations of the ‘‘Less Activated’’ Vinyl Monomers. Y. F. Yan, W. Zhang (Co-first Author), X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem201048, 5206.

7.    Fluorescent Properties of Poly(9-(4-vinylbenzyl)-9H-carbazole) via Nitroxide-mediated Living Free Radical Polymerization. W. Zhang, X. L. Zhu* et al. Eur Polym J. 200844, 3300.

6.    Atom Transfer Radical Polymerization of Styrene Using Multifunctional Iniferter Reagents as Initiators. W. Zhang, X. L. Zhu* et al. Macromol. Symp. 2008261, 23.

5.    Atom Transfer Radical Polymerizations of Methyl Methacrylate and Styrene using Iniferter Reagent as Initiator. W. Zhang, X. L. Zhu* et al. J. Appl. Polym. Sci2007106, 230.

4.    Synthesis of Well-defined Naphthalene and Photo-liable Group Labeled Polystyrene via ATRP. W. Zhang, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem200644, 510.

3.    Atom Transfer Radical Polymerization of Styrene using a Novel Initiator Ethyl 2-N,N-(diethylamino)dithiocarbamoyl-Butyrate. W. Zhang, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem200644, 32.

2.    Reversible Addition–Fragmentation Chain Transfer Polymerization of 2-Naphthyl Acrylate with 2-Cyanoprop- 2-yl 1-Dithionaphthalate as a Chain-Transfer AgentW. Zhang, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem200543, 2632.

1.    Reverse Atom Transfer Radical Polymerization of Methyl Methacrylate using a New Catalyst, Copper(II) N,N’-Butyldithiocarbamate. W. Zhang, X. L. Zhu* et al. Macromol. Chem. Phys. 2004205, 806.

 

Name: Zhang Wei
Title:Professor
Department:College of Chemistry, Chemical Engineering and Materials Science
Contacts:
 Tel: 86-512-65884243 (O)

Email: weizhang@suda.edu.cn


Group Website

 Research Interests:

Suprapolymer and Assembly; Chiral Supermolecular Self-assembly; Multi-responsive Materials; pi-Conjugated Polymer

Representative Publications

41.  Supramolecular Chirality in Achiral Polyfluorene: Chiral Gelation, Memory of Chirality, and Chiral Sensing Property. Y. Zhao, W. Zhang*, X. L. Zhu et al. Macromolecules 2016, 49, 3214.

40.  Synthesis and Characterization of Visible-Light-Activated Azo Hyperbranched Polymers. L. B. Wang, W. Zhang*, et al. Polym. Chem. 2016, 7, 5407.

39.  手性溶剂诱导非手性物质手性的研究进展(特约综述). 赵银,殷露,张伟*等,2016, 29, 20.

38.  Synthesis of diverse cyclic-brush polymers with cyclic polystyrene as a universal template via a grafting-from approach. S. S. Zhang, W. Zhang*, et al. Polym. Chem. 2016, 7, 2112.

37.  A strategy for tuning achiral main-chain polymers into helical assemblies and chiral memory systems. D. Yang, W. Zhang*, L. Zhang* and M. H. Liu* et al. Soft Matter 2015, DOI: 10.1039/c5sm02547h.

36    Preferential chiral solvation induced supramolecular chirality in optically inactive star Azo polymers: photocontrollability, chiralamplification and topological effects. L. Yin, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20156, 7045.

35.  The Suzuki coupling reaction as a post-polymerization modification: a promising protocol for construction of cyclic-brush and more complex polymers. Y. S. Wang, W. Zhang*, Z. B. Zhang*, X. L. Zhu* et al. Polym. Chem. 20156, 4669.

34.  Photocontrollable induction of supramolecular chirality in achiral side chain Azo-containing polymers through preferential chiral solvation. S. Q. Jiang, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20156, 4230.

33.  A Straightforward Protocol for the Highly Efficient Preparation of Main-Chain Azo Polymers Directly from Bisnitroaromatic Compounds by the Photocatalytic Process. L. B. Wang, W. Zhang*, X. L. Zhu et al. Macromolecules 201548, 1289.

32.  Photon magic: chiroptical polarisation, depolarisation, inversion, retention and switching of non-photochromic light-emitting polymers in optofluidic medium, M. Fujiki*, Y. Zhao, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20156, 1627.

31.  One-step pyrolytic synthesis of ZnO nanorods with enhanced photocatalytic activity and high photostability under visible light andUV light irradiation. N. Huang, Z. H. Wang* and W. Zhang* et al. J Alloys Compd2015648, 919.

30.  Supramolecular self-assembly and photovoltaic property of soluble fluorogallium phthalocyanine, J. Zhang, L. B. Wang, W. Zhang*, X. L. Zhu* et al. RSC Adv. 2014, 4, 29485.

29.  A novel azobenzene covalent organic framework, J. Zhang, L. B. Wang, W. Zhang*, X. L. Zhu* et al. CrystEngComm2014, 16, 6547.

28.  Limonene induced chiroptical generation and inversion during aggregation of achiral polyfluorene analogs: structure-dependence and mechanism, L. B. Wang, W. Zhang*, X. L. Zhu et al. Polym. Chem. 20145, 2872.

27.  A novel approach to synthesize polymers for potential photodynamic therapy: from benzenedinitrile to phthalocyanine, L. B. Wang,W. Zhang*, X. L. Zhu et al. Polym. Chem. 20145, 5920.

26.  Chiroptical generation and amplification of hyperbranched p-conjugated polymers in aggregation states driven by limonene chirality, J. F. Liu, W. Zhang*, X. L. Zhu* et al. Polym. Chem. 20145, 784.

25.  Preparation and Characterization of Solution Processable Phthalocyanine-Containing Polymers via a Combination of RAFT Polymerization and Post-Polymerization Modification Techniques, J. Zhang, L. B. Wang, W. Zhang*, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem. 201452, 691.

24.  Design and property of thermoresponsive core–shell fluorescent nanoparticles via RAFT polymerization and suzuki coupling reaction, Z. Y. Xing, J. Zhang, W. Zhang*, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem. 201351, 4021.

23.  Cooperative self-assembly and crystallization into fractal patterns by PNIPAM-based nonlinear multihydrophilic block copolymers under alkaline conditions, S. T. SunP. Y. Wu*, W. Zhang*X.L. Zhu* et al. Polym. Chem. 20134, 5800.

22.  Chiral Self-Assembly of Designed Amphiphiles: Influences on Aggregate Morphology, T. G. Barclay*, K. Constantopoulos, W. Zhang, M. Fujiki et al. Langmuir 2013, 29, 10001.

21.  Mirror Symmetry Breaking and Restoration within μm-Sized Polymer Particles in Optofluidic Media by Pumping Circularly Polarised Light, M. Fujiki*, W. Zhang*, X. L. Zhu* et al. RSC Adv. 20133, 5213.

20.  溶剂手性转移法制备超支化共轭聚合物手性荧光纳米粒子. 张双双,刘江飞,张键,王来兵,张伟*,朱秀林*. 高分子学报2013,4,426.

19.  Effect of structural constraint on dynamic self-assembly behavior of PNIPAM-based nonlinear multihydrophilic block copolymers, P. Y. Wu*, W. Zhang*, X. L. Zhu et al. Soft Matter 20139, 1807.

18.  Facile one-pot/one-step technique for preparation of side-chain functionalized polymers: Combination of SET-RAFT polymerization of azide vinyl monomer and click chemistry. Q. Shen, W. Zhang*, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem. 201250, 1120.

17.  Unpolarized-Light-Driven Amplified Chiroptical Modulation Between Chiral Aggregation and Achiral Disaggregation of an Azobenzene-alt-Fluorene Copolymer in Limonene. W. Zhang*, K. Yoshida, M. Fujiki*. Macromolecules 201144, 5105.

16.  Chiroptical Nanofibers Generated From Achiral Metallophthalocyanines Induced by Diamine Homochirality. W. Zhang*, M. Fujiki*. X. L. Zhu. Chem. Eur. J. 201117, 10628.

15.  Synthesis and Aggregation Behaviors of Nonlinear Multiresponsive, Multihydrophilic Block Copolymers. W. D. Zhang, W. Zhang (Co-first Author), X. L. Zhu* et al. Macromolecules 201144, 3941.

14.  Programmed High-Hole-Mobility Supramolecular Polymers from Disk-Shaped Molecules. W. Zhang*, K. Ochi, M. Fujiki* et al.Adv. Funct. Mater201020, 3941.

13.  Ambidextrous optically copper(II) phthalocyanine supramolecules induced by peripheral group homochirality. W. Zhang*, A. Ishimaru, M. Fujiki* et al. New J. Chem 201034, 2310.

12.  Chlorodithiocarbamate Mediated RAFT Polymerization: A Novel Synthetic Method for ATRP Macroinitiators. W. Zhang, X. L. Zhu* et al. Macromol. React. Eng20104, 264.

11.  SET-RAFT Polymerization of Progargyl Methacrylate and One-pot/One-step Preparation of Side-chain Functionalized Polymer via Combination of SET-RAFT and Click Chemistry. W. D. Zhang, W. Zhang (Co-first Author), X. L. Zhu* et al. Macromo. Rapid Commun. 201031, 1354.

10.  Thermo-responsive Fluorescent Micelles from Amphiphilic A3B Miktoarm Star Copolymers Prepared via a Combination of SET-LRP and RAFT Polymerization. W. D. Zhang, W. Zhang (Co-first Author), X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem.201048, 4268.

9.    Preparation of Miktoarm Star-Block Copolymers PSn-b-PVAc4-n via Combination of ATRP and RAFT Polymerization. Y. S. Qiu,W. Zhang (Co-first Author), X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem201048, 5180.

8.    Universal Xanthate-Mediated Controlled Free Radical Polymerizations of the ‘‘Less Activated’’ Vinyl Monomers. Y. F. Yan, W. Zhang (Co-first Author), X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem201048, 5206.

7.    Fluorescent Properties of Poly(9-(4-vinylbenzyl)-9H-carbazole) via Nitroxide-mediated Living Free Radical Polymerization. W. Zhang, X. L. Zhu* et al. Eur Polym J. 200844, 3300.

6.    Atom Transfer Radical Polymerization of Styrene Using Multifunctional Iniferter Reagents as Initiators. W. Zhang, X. L. Zhu* et al. Macromol. Symp. 2008261, 23.

5.    Atom Transfer Radical Polymerizations of Methyl Methacrylate and Styrene using Iniferter Reagent as Initiator. W. Zhang, X. L. Zhu* et al. J. Appl. Polym. Sci2007106, 230.

4.    Synthesis of Well-defined Naphthalene and Photo-liable Group Labeled Polystyrene via ATRP. W. Zhang, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem200644, 510.

3.    Atom Transfer Radical Polymerization of Styrene using a Novel Initiator Ethyl 2-N,N-(diethylamino)dithiocarbamoyl-Butyrate. W. Zhang, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem200644, 32.

2.    Reversible Addition–Fragmentation Chain Transfer Polymerization of 2-Naphthyl Acrylate with 2-Cyanoprop- 2-yl 1-Dithionaphthalate as a Chain-Transfer AgentW. Zhang, X. L. Zhu* et al. J. Polym. Sci. Part A: Polym. Chem200543, 2632.

1.    Reverse Atom Transfer Radical Polymerization of Methyl Methacrylate using a New Catalyst, Copper(II) N,N’-Butyldithiocarbamate. W. Zhang, X. L. Zhu* et al. Macromol. Chem. Phys. 2004205, 806.