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[16] 黄莹莹,叶忍记,吴嘉麟,纳米二氧化硅对涤纶拉伸性能的影响[J].合成纤维2005, 34 (7): 20-23.
[17] 欧玉春,杨锋,漆宗能等,聚合物金属纳米粒子杂化材料的制备与应用[J],高分子学报,1997,41(2):213-217.
[18] 张晟卯,高永建,张治军等.聚合物SiO2纳米杂化材料在药物控制释放中的应用[J],应用化学,2002,19(9):914-920.
[19]KrishanM,WhiteJ,FoxMA et a1.Conjugated polymer nanocomposite:Systhesis,dielectric,and microwave absorption studies.J Chem Soc,1983,105(3):7002-7003.
[20] G M Whitesides, J P Mathias, C T Seto. Molecular self-assembly andnanochemistry: a chemical strategy for the synthesis of nanostructures ,Sci, 1991,254: 1312-1319.
[21] 王娟娟,晃小练,杨祖培. 纳米ZnO/共轭聚合物杂化材料光催化性能研究,塑料科技[J],2004,68(4):42-47.
[22] 隋晓萌,聚合物ZnO复合材料的制备与发光性能研究[D],福建师范大学,2006,12-13. [23] 李玲,龚克成,超声波在纳米材料合成中的应用[J],材料报道.1998,124(4):18-20.
[24] J.L.Wilson,P.Poddar,N.A.Frey,H.Srikanth,KMohomed,J.P.Harmon.SKotha Synthesis and magnetic properties of polymer nanocomsite with embedded iron nanoparticle,,Appl phy,2004,95:1439-1443.
张立德,牟季关,纳米材料与纳米结构[M],北京,科学出版社,2001.
[25]Rui-Juan Zhou Thomas Burkhart ,Mechanical properties and morphology of microparticle and nanoparticle-filled polyppropylene composite. Master Sci,2010,45:3016-3022.
[26]朱小红,电电沉积聚合物纳米粒子构造电化学传感器以及纳米电极的研究[D],中国技大学,2007,56-78.
[27] 程武荣,原位聚合法制备半导体纳米粒子/聚合物杂化光学材料[D],吉林大学2010,24-36. 洪伟良,刘剑洪,田德余等,有机无机纳米杂化材料的制备方法[J].化学研究与应用2000,12(2):132-136.
[28]贺鹏,赵安赤.聚合物改性中纳米复合新技术[J].高分子通报,2001,46(1):74-86. [29]Yushan Liu, Peng Liu, Zhixing Su, Core-shell attapulgite@polyaniline compositeparticles via in situ oxidative polymerization, Synthetic Metals, 2007,157: 585-591.
[30] 李立,聚碳酸酯/无机纳米杂化材料的制备与性能研究[D],苏州大学,2008,42-68.
[31] Sanchez C, Soler-Illia G J A A, Ribot F, Designed hybrid organic-inorganicnanocomposites from functional nanobuilding blocks, Chem Matey Review, 2001, 13:3061-3083.
[32] Schooner GS Hybrid sol-gel-derived polymers, Applications of multifunctional materials, Chem Mate Review, 2001,24: 3422-3435.
[33]Pyun J, Matyjaszewski K,nthesis of nanocomposite organic/inorganic hybridmaterials using controlled/\
[34] LiangJ Z, Tougheningand reinforcing in rigid inorganic particulate filled poly(propylene)[J], 2002, 83:1547-1555.
[35] Wu S H, Phase structure and adhesion in polymer blends: A criterion for rubber toughening, Polymer[J], 1985, 26 : 1855-1863.
[36] 黄锐,徐伟平,SiC/Si3N4纳米粒子增强增韧低密度聚乙烯性能研究[J],塑料工业,1997,98(3):106-110.
[37] Dope EJA, Mackenzie JD. Transparent silica gel-PMMA composition. J. Mater. Res. 1989 ,45:1018-1026.
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[38]Colvin V L,Schlamp M C,Alivsatos A P.Light-emiting-dios made from cadmiumselenide nanocrystals and a semiconducting polymer.nature,1994;37:354-357.
[39] Bianconi P A, Lin J, Strzelecki A R. Polymer-Nanoparticle Composite:Preparative Methods and Electronically Active M aterials,Taylor&Francis, 2007,68: 315-317.
[40]王姗,房喻,张颖等.聚丙烯/无机纳米杂化材料的研究,物理化学学报,2003,19(6): 514-518.
[41]高海霞,施利毅,成荣明等,纳米ZnO粒子共轭聚合物杂化材料光催化降解聚苯胺的研究[J],水处理技,2007,33(9):39-41.
[42]Anil K,Nupur, M. Photocatalytic oxidation of aniline using Ag-loaded TiO2 suspension[J].Appl Catalysis A:General 2004,275(1-2):189-197.
[43]Paul A Van Hal,Marwijin P T Christiuans,etal.photoinduced electron transfer from conjugated polymers to TiO2.J Phys Chem B.1999,103(21):4352-4359. [44]李鹏,官建国,张清杰,,导电聚合物/磁性纳米复合材料的制备及其结构与性能[J],华东理工大学学报,2006,46(1):1246-1253.
[45] A. Heilmann, Polymer Films with Embedded Metal Nanoparticles .Springer, NewYork,2003. [46] J. C. Kaivin, M. K. Helin, Conductive performance in mixed organic-inorganic nanoparticles film, Polymer, 2003, 45(2): 632-638
[47]H.J. Wang, K. W. Helon, Charge carrier transfer dynamics of colloidal semiconductor nanoparticle.J. Phys. Chem., 2003, 114(1): 6334-6341.
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S OF POLYMER NANOPARTICLE HYBRID
MATERIALS
Han Rong min
Abstract: The research of polymer nanoparticle hybrid materials has been widely studied, because they exhibit the advantages of both polymer and nanoparticle. Conception of polymer nanoparticle hybrid materials are introduced. Several methods of preparing polymer nanoparticle hybrid materials are reviewed. Mechanical, optical, electrical , and magnetic charactertics of the polymer nanoparticle hybrid materials are summarized, which are much different from traditional materials. At last, future of the polymer nanoparticle hybrid materials are prospected.
Key words: Polymer; Nanoparticle; Hybrid; Preparation; Properties
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