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王齐(浙江大学教授)

增加 10,537 位元組, 5 年前
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{{Infobox person
| 姓名 = 王齐
| 圖像 = [[File:王齐1.jpg|缩略图|center|[https://gss1.bdstatic.com/-vo3dSag_xI4khGkpoWK1HF6hhy/baike/w%3D268%3Bg%3D0/sign=19943136820a19d8cb0383030bc1e5b6/503d269759ee3d6d80d0ef4c41166d224f4ade27.jpg 原图链接]]]
| 圖像說明 = [[浙江大学]]教授
| 出生日期 =
| 國籍 = 中國
| 别名 =
| 職業 = 2004年2月至2005年3月在[[日本]][[北陆先端科学技术大学院大学]]做客座研究员。2006年入选教育部“新世纪优秀人支持计划”
| 知名原因 =
| 知名作品 =
}}
'''王齐''',男,[[浙江大学]]教授。1992年毕业于浙江大学化学系,获理学学士学位。1997年毕业于浙江大学高分子系,获高分子化学与物理专业理学[[博士]]学位。
==人物履历==
1997年到浙江大学任教,1999年晋升为副教授,2005年晋升为教授,2006年被批准为博士生导师。其中2001年2月至4月在[[法国]]国家植物大分子研究中心做短期访问学者;

2004年2月至2005年3月在[[日本]][[北陆先端科学技术大学院大学]]做客座研究员。

2006年入选教育部“新世纪优秀人支持计划”。现任高分子科学与工程学系副主任。
===研究方向===
1.烯烃配位聚合催化剂

主要研究助催化剂对聚合反应的影响,如聚合活性,聚合物的分子量和分子量分布,共单体的插入等。

2. 自由基聚合新方法

集自由基加成和偶合反应于一体的自由基加成-偶合聚合反应(Radical Addition-Coupling Polymerization)。

3. 具有新型结构的高分子的合成

多嵌段聚合物的合成新方法;周期性共聚物/多元交替共聚物的制备新方法。
==主要贡献==
===科技成果===
先后承担国家自然科学基金3项、作为研究骨干参加 “973”课题2项。在Macromolecules、 Macromol. Rapid Commun.等期刊上共发表SCI论文60余篇,被他人引用480余次;获得国家发明专利7项。
===代表性论文===
(1) J.J. Li and Q. Wang,Radical Addition-Coupling Polymerization with Various Nitroso CompoundsJ. Polym. Sci. Pol. Chem., 2014. 52(6): 810-815.

(2) C.Y. Zhang and Q. Wang,Block copolymers prepared by polymeric radical addition cross-coupling reaction to different double bondsJ. Polym. Sci. Pol. Chem., 2013. 51(13): 2817-2823.

(3) Q.Q. Zhu and Q. Wang,Thermodegradable multisegmented polymer synthesized by consecutive radical addition-coupling reaction ofa,w-macrobiradicals and dithioesterJ. Polym. Sci. Pol. Chem., 2012. 50(10): 2029-2036.

(4) C.Y. Zhang and Q. Wang,Step-Growth Radical Addition-Coupling Polymerization (RACP) for Synthesis of Alternating CopolymersMacromol. Rapid Commun., 2011. 32(15): 1180-1184.

(5) C.Y. Zhang and Q. Wang,Degradable Multisegmented Polymers Synthesized by Consecutive Radical Addition-Coupling Reaction ofa,w-Macrobiradicals and Nitroso CompoundJ. Polym. Sci. Pol. Chem., 2011. 49(3): 612-618.

(6) C.Y. Zhang, J. Ling, and Q. Wang,Radical Addition-Coupling Polymerization (RACP) toward Periodic CopolymersMacromolecules, 2011. 44(22): 8739-8743.

(7) Y.S. Wu and Q. Wang,One-Pot Synthesis of Well-Defined Multiblock Polymer: Combination of ATRP and RAFT Polymerization Involving Cyclic TrithiocarbonateJ. Polym. Sci. Pol. Chem., 2010. 48(11): 2425-2429.

(8) T.X. Sun, Q. Wang, and Z.Q. Fan,Selective activation of metallic center in heterobinuclear cobalt and nickel complex in ethylene polymerizationPolymer, 2010. 51(14): 3091-3098.

(9) B.Y. Du, A.X. Mei, Y. Yang, Q.F. Zhang, Q. Wang, J.T. Xu, and Z.Q. Fan,Synthesis and micelle behavior of (PNIPAm-PtBA-PNIPAm)(m) amphiphilic multiblock copolymerPolymer, 2010. 51(15): 3493-3502.

(10) B.Y. Du, X.J. Chen, B. Zhao, A.X. Mei, Q. Wang, J.T. Xu, and Z.Q. Fan,Interfacial entrapment of noble metal nanoparticles and nanorods capped with amphiphilic multiblock copolymer at a selective liquid-liquid interfaceNanoscale, 2010. 2(9): 1684-1689.

(11) B.Y. Du, A.X. Mei, Y. Yang, Q. Wang, and J.T. Xu,Micellization behavior of multiblock copolymer (P4VP-b-PS-b-P4VP)(n)Acta Polym. Sin., 2009(8): 723-728.

(13) L.S. Zhang, Q. Wang, P. Lei, X. Wang, C.Y. Wang, and L. Cai,Multiblock poly(4-vinylpyridine) and its copolymer prepared with cyclic trithiocarbonate as a reversible addition-fragmentation transfer agentJ. Polym. Sci. Pol. Chem., 2007. 45(13): 2617-2623.

(14) Q. Wang, Y.Z. Lin, Z.H. Zhang, B.P. Liu, and M. Terano,High temperature polymerization of propylene catalyzed by MgCl2-supported Ziegler-Natta catalyst with various cocatalystsJ. Appl. Polym. Sci., 2006. 100(3): 1978-1982.

(15) Q. Wang, Y.X. Li, J. Hong, and Z.Q. Fan,Styrene polymerization mediated by cyclic trithiocarbonate as raft agentChin. J. Polym. Sci., 2006. 24(6): 593-597.

(16) P. Lei, Q. Wang, J. Hong, and Y.X. Li,Synthesis of poly(n-butyl acrylate) containing multiblocks with a narrow molecular weight distribution using cyclic trithiocarbonatesJ. Polym. Sci. Pol. Chem., 2006. 44(22): 6600-6606.

(17) J. Hong, Q. Wang, and Z.Q. Fan,Synthesis of multiblock polymer containing narrow polydispersity blocksMacromol. Rapid Commun., 2006. 27(1): 57-62.

(18) J.T. Xu, Y.Q. Zhao, Q. Wang, and Z.Q. Fan,Isothermal crystallization of intercalated and exfoliated polyethylene/montmorillonite nanocomposites prepared by in situ polymerizationPolymer, 2005. 46(25): 11978-11985.

(19) J.T. Xu, Y.Q. Zhao, Q. Wang, and Z.Q. Fan,Observation of regime III crystallization in polyethylene/montmorillonite nanocompositesMacromol. Rapid Commun., 2005. 26(8): 620-625.

(20) J.T. Xu, Q. Wang, F. Wu, and Z.Q. Fan,Polymerization of vinyl chloride catalyzed by a titanium complex with an anionic oxygen tripod ligandEur. Polym. J., 2005. 41(1): 115-120.

(21) J.T. Xu, Q. Wang, and Z.Q. Fan,Non-isothermal crystallization kinetics of exfoliated and intercalated polyethylene/montmorillonite nanocomposites prepared by in situ polymerizationEur. Polym. J., 2005. 41(12): 3011-3017.

(22) Q. Wang, N. Murayama, B.P. Liu, and M. Terano,Effects of electron donors on active sites distribution of MgCl2-supported Ziegler-Natta catalysts investigated by multiple active sites modelMacromol. Chem. Phys., 2005. 206(9): 961-966.

(23) Q. Wang and P. Liu,Dual bimodal polyethylene prepared by intercalated silicate with nickle diimine complexJ. Polym. Sci. Pol. Chem., 2005. 43(22): 5506-5511.

(24) Q. Wang, L.D. Li, and Z.Q. Fan,Effect of alkylaluminum on ethylene polymerization catalyzed by 2,6-bis(imino)pyridyl complexes of Fe(II)J. Polym. Sci. Pol. Chem., 2005. 43(8): 1599-1606.

(25) Q. Wang, L.D. Li, and Z.Q. Fan,Effects of tetraalkylaluminoxane activators on ethylene polymerization catalyzed by iron-based complexesEur. Polym. J., 2005. 41(6): 1170-1176.

(26) Q. Wang and L. Ji,Influence of cocatalyst on the copolymerization of ethylene and styrene catalyzed by N-catalystGaofenzi Xuebao, 2005(1): 4-7.

(27) J. Hong, Q. Wang, Y.Z. Lin, and Z.Q. Fan,Styrene polymerization in the presence of cyclic trithiocarbonateMacromolecules, 2005. 38(7): 2691-2695.

(28) H. Yang, Q. Wang, Z. Fan, and H. Xu,Improved high-temperature performance of iron (II) complexes for ethylene polymerization by variation of aluminoxanesPolym. Int., 2004. 53(1): 37-40.

(29) Q. Wang, Z. Zhou, L. Song, H. Xu, and L. Wang,Nanoscopic confinement effects on ethylene polymerization by intercalated silicate with metallocene catalystJ. Polym. Sci. Polym. Chem. Ed., 2004. 42(1): 38-43.

(30) Q. Wang, H. Yang, Z. Fan, and H. Xu,Performance of various activators in ethylene polymerization based on an iron(II) catalyst systemJ. Polym. Sci. Polym. Chem. Ed., 2004. 42(5): 1093-1099.

(31) Q. Wang, L. Li, and Z. Fan,Polyethylene with bimodal molecular weight distribution synthesized by 2,6-bis(imino)pyridyl complexes of Fe(II) activated with various activatorsEur. Polym. J., 2004. 40(8): 1881-1886.

(32) Q. Wang and L. Li,Effect of aluminoxane on molecular weight and molecular weight distribution of polyethylene prepared by an iron-based catalystPolym. Int., 2004. 53(10): 1473-1478.

(33) L. Li and Q. Wang,Synthesis of polyethylene with bimodal molecular weight distribution by supported iron-based catalystJ. Polym. Sci. Polym. Chem. Ed., 2004. 42(22): 5662-5669.

(34) Q. Wang, C. Song, and W. Lin,Study of the exfoliation process of epoxy-clay nanocomposites by different curing agentsJ. Appl. Polym. Sci., 2003. 90(2): 511-517.

(35) Q. Wang, J. Hong, Z. Fan, and R. Tao,Ethyl-iso-butylaluminoxane activated metallocene catalyst for olefin polymerizationJ. Polym. Sci. Polym. Chem. Ed., 2003. 41(7): 998-1003.

(36) C. Song, W. Lin, Q. Wang, L. Feng, and Q. Li,Effect of curing agents and curing conditions on intercalation and exfoliation behavior of epoxy/clay nanocompositeFuhe Cailiao Xuebao, 2003. 20(2): 30-34.

(37) H. Yang, Q. Wang, Z. Fan, W. Lou, and L. Feng,Ethylene polymerization catalyzed by nickel-based complex combined with various modified EBAOsEur. Polym. J., 2002. 39(2): 275-279.

(38) Q. Wang, H.X. Yang, and Z.Q. Fan,Efficient activators for an iron catalyst in the polymerization of ethyleneMacromol. Rapid Commun., 2002. 23(10-11): 639-642.

(39) Q. Wang, Y. Zhao, L. Song, Z. Fan, and L. Feng,Characterization of aluminoxanes by ESR spin probe methodMacromol. Chem. Phys., 2001. 202(3): 448-452.

(40) Q. Wang, L. Song, Y. Zhao, and L. Feng,UV-visible spectroscopic study of rac-Et(Ind)2ZrCl2/aluminoxanesMacromol. Rapid Commun., 2001. 22(13): 1030-1034.

(41) Q. Wang, J. Weng, Z. Fan, and L. Feng,Study on polymerization of ethylene with Cp2ZrCl2/aluminoxanesEur. Polym. J., 2000. 36(6): 1265-1270.

(42) Q. Wang, J. Weng, L. Xu, Z. Fan, and L. Feng,Multiple active sites model of ethylene polymerization with the Cp2ZrCl2-aluminoxanes catalytic systemPolymer, 1998. 40(7): 1863-1870.

(43) Z.Q. Fan, Y.H. Zhang, Q. Wang, and L.X. Feng,Effects of Al(i-Bu)3 on propylene polymerization and copolymerization by rac-Me2Si(Ind)2ZrCl2/MAOChin. Chem. Lett., 1998. 9(1): 83-85.

(44) Q. Wang, J.H. Wenig, Z.Q. Fan, and L.X. Feng,Influence of mixed aluminoxane systems on ethylene-norbornene copolymerization catalyzed by metalloceneMacromol. Rapid Commun., 1997. 18(12): 1101-1107.

(45) M. Xiang, L. Feng, Q. Wang, S. Fan, and S. Yang,Study on coordination copolymerization of oxygen-containing monomer with 1-olefin and characterization of the copolymerGaofenzi Xuebao, 1995(4): 465-471.

(46) Q. Wang and L. Feng,Development in homogeneous Ziegler-Natta catalystsGaofenzi Tongbao, 1995(1): 34-39.
===获奖记录===
省部级奖励2项。
135,107
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