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溶液自组装法制备卟啉纳米材料研究进展 被引量:4

Research progress of self-assembly methods to prepare porphyrin nanomaterials in solution
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摘要 在溶液中,利用自组装方法制备以卟啉化合物为基础的纳米材料具有优良的光物理和光化学性质,在分子器件和人工模拟光合作用等方面具有巨大的应用前景,是目前的研究热点。本文详细介绍了单卟啉组装方法和多卟啉共组装方法,单卟啉组装包括双溶剂法和表面活性剂辅助法两类方法。简要介绍了卟啉自组装纳米材料在集光天线和光催化方面的应用。目前,自组装方法制备的卟啉化合物纳米材料已经出现了丰富的形态,但仍存在不足,即自组装作用机理有待深入研究,且如何将卟啉纳米材料的制备工艺放大并应用于实际,还有待进一步发展。 Using self-assembly methods to prepare nanoscale porphyrin functional materials with excellent physicochemical properties has become a research focus,as it offers great potential application prospects for molecular devices and artificial photosynthesis.This review provides details for multiple-porphyrin as well as single-porphyrin self-assembly methods.In particular,mixing solvent techniques and surfactant-assisted method used in single-porphyrin self-assembly processes are discussed.Application of self-assembled porphyrin nanostructures in light-harvesting antenna and photocatalysis is summarized.Thus far,rich forms of porphyrin-based nanoarchitectures have been assembled.However,there is still a great need in understanding the self-assembly mechanisms and in further developing techniques for the practical applications of porphyrin nanostructures by self-assembly methods.
作者 王丽 李巍 刘东志 王丽昌 周雪琴
机构地区 天津大学化工学院 美国南伊利诺伊州大学卡本代尔分校化学与生物化学系
出处 《化工进展》 EI CAS CSCD 北大核心 2013年第9期2160-2165,共6页 Chemical Industry and Engineering Progress
基金 国家自然科学基金项目(29676122)
关键词 卟啉 自组装 纳米材料 porphyrin self-assembled nanomaterials
分类号 O641.3 [理学—物理化学]
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参考文献32

  • 1Claridge S A, Lian W S, Thomas J C, et al. From the bottom up: Dimensional control and characterization in molecular monolayers[J]. ChemicalSocietyReviews, 2013, 42: 2725-2745.
  • 2Cook T R, Zheng Y R, Stang P J. Metal-organic frameworks and self-assembled supramolecular coordination complexes: Comparing and contrasting the design, synthesis, and fimctionality of metal-organic materials[J]. Chemical Reviews, 2012, 113 ( 1 ) : 734-777.
  • 3Hasobe T. Photo- and electro-functional self-assembled architectures of porphyrins[J]. Physical Chemistry Chemical Physics, 2012, 14 (46) : 15975-15987.
  • 4Wang M, Wudl F. Top-down meets bottom-up: Organized donor-acceptor heterojunctions for organic solar cells[J]. Journal of Materials Chemistry, 2012, 22 (46): 24297-24314.
  • 5Kalyanasundaram K, Gratzel M. Themed issue: Nanomaterials for energy conversion and storage[J]. Journal of Materials Chemistry, 2012, 22 (46): 24190-24194.
  • 6Liu Y, Goebl J, Yin Y. Templated synthesis of nanostructured materials[J].Chemieal Society Reviews, 2013, 42: 2610-2653.
  • 7Reichardt N C , Martin Lomas M , Penades S. Glyconanotechnology[J].Chemical Society Reviews, 2013, 42 ." 4358-4376.
  • 8Su B, Wu Y, Jiang L. The art of aligning one-dimensional(1D) nanostructures[J]. Chemical Society Reviews, 2012, 41 (23) : 7832-7856.
  • 9Zhang J, Li C M. Nanoporous metals: Fabrication strategies and advanced electrochemical applications in catalysis, sensing and energy systems[J]. Chemical Society Reviews, 2012, 41 (21) : 7016-7031.
  • 10Lu G, Chert Y, Zhang Y, et al. Morphology controlled self-assembled nanostructures of sandwich mixed(phthalocyaninato) (porphyrinato) europium triple-deckers. Effect of hydrogen bonding on tuning the intermolecular interaction[J]. Journal of the American ChemicalSociety, 2008, 130 (35): 11623-11630.

同被引文献89

  • 1张国栋,靳荣华,张在龙.咪唑类室温离子液体中有序聚集体的组装及应用[J].化工进展,2012,31(S1):429-437. 被引量:3
  • 2LIU Yi-ding,GOEB J,YIN Ya-dong. Templated synthesis of nanostructured materials [ J ]. Chem. Soc. Rev. , 2013, 42(7) :2 610-2 653.
  • 3REICHARDT N C, MARTIN L M, PENADES S. Glyco- nanotechnology [ J ]. Chem. Soc. Rev. , 2013,42 ( 10 ) : 4 358-4 376.
  • 4SU Bin, WU Yu-ehen, JIANG Lei. The art of aligning one-dimensional ( 1D ) nanostructures [ J ]. Chem. Soc. Rev. ,2012,41 (23) :7 832-7 856.
  • 5WANG Ming-kui, GRATZEL C,ZAKEERUDDIN S M, et al. Recent developments inredox electrolytes for dye-sen- sitized solar ceils [ J ]. Energy Environ. Sci. , 2012, 5 (11) :9 394-9 405.
  • 6ZHANG Xiao-yu, GUO Ying-shu, LIU Ming-shuai, et al. Photoelectrochemically active species and photoelectro- chemical biosensors[ J]. RSC Adv. ,2013,3(9) :2 846- 2 857.
  • 7EVA M H, STEFAN H, BRETT H, et al. The effect of macromolecular architecture in nanomaterials : a compari- son of site isolation in porphrin core dendrimers and their isomeric linear analogues [ J ]. J. Am. Chem. Soc., 2002, 124(15) :3 926-3 938.
  • 8TIAN Yong-ming, BEAVERS C M, BUSANI T, et al. Bi- nary ionic porphyrin nanosheets:electronic and Iight-har- vesting properties regulated by crystal structure [ J ]. Royal Soe. Chem. ,2012,4($):1 695-1 700.
  • 9MARTIN K E, TIAN Yong-ming, BUSANI T, et al. Charge effects on the structure and composition of porphyrin bi- nary ionic solids : ZnTPPS/SnTMePyP nanomaterials [ J ]. Chem. Mater. , 2013,25 (3) :441-447.
  • 10JARIWALA D, SANGWAN V K, LAUHON L J, et al. Carbon nanomaterials for electronics, optoelectronics, photovoltaics and sensing[ J]. Chem. Soc. Rev. ,2013,42 (7) :2 824-2 860.

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化工进展
2013年 第9期

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