JOURNAL OF LIGHT INDUSTRY

CN 41-1437/TS  ISSN 2096-1553

Volume 31 Issue 3
May 2016
Article Contents
    SUN Shu-min, WANG Pei-yuan and WU Qiong. Progress on the covalent organic frameworks and the application[J]. Journal of Light Industry, 2016, 31(3): 21-32. doi: 10.3969/j.issn.2096-1553.2016.3.004
    Citation: SUN Shu-min, WANG Pei-yuan and WU Qiong. Progress on the covalent organic frameworks and the application[J]. Journal of Light Industry, 2016, 31(3): 21-32. doi: 10.3969/j.issn.2096-1553.2016.3.004 shu

    Progress on the covalent organic frameworks and the application

    • College of Material and Chemical Engineering, Zhengzhou University of Light Industry, Zhengzhou 450001, China

    • Received Date: 2016-01-12
    • Covalent organic frameworks (COFs) is an emerging type of crystalline porous material, which includes four types-boron type, imine type, triazine type and other type. In comparison with traditional amorphous porous materials,COFs shows exceptional thermal stability,low density,high specific surface area and flexible structure modification, which made it have wide potential application in gas adsorption,photoelectricity, catalysis and biosensor. In addition to designing and developing new precursor, new synthetic methods and new ways of connection to achieve the perfect combination of theory and experiment,the addition of a specific block to give the material a wider range of application performance will be the development direction of the COFs composite materials in the future.
    • 加载中
      1. [1]

        王培远,康华魁,孙淑敏,等.氨基功能化有机-无机杂化介孔材料合成及药物释放性能研究[J].郑州轻工业学院学报(自然科学版), 2013,28(4):1.

      2. [2]

        刘密, 韩莉锋, 肖元化,等.多孔Co3O4纳米片的制备及其电化学性能研究[J].郑州大学学报(工学版), 2013(3):46.

      3. [3]

        CÔté A P,BENIN A I, OCKWIG N W,et al.Porous,crystalline,covalent organic frameworks[J].Science, 2005, 310(5751):1166.

      4. [4]

        EL-KADERI H M, HUNT J R, MENDOZA-CORT S J L, et al.Designed synthesis of 3D covalent organic frameworks[J].Science,2007,316(5822):268.

      5. [5]

        HUNT J R, DOONAN C J, LEVANGIE J D, et al.Reticular synthesis of covalent organic borosilicate frameworks[J].Journal of the American chemical society,2008,130(36):11872.

      6. [6]

        JACKSON K T,REICH T E,EL-KADERI H M.Targeted synthesis of a porous borazine-linked covalent organic framework[J].Chemical communications,2012,48(70):8823.

      7. [7]

        LANNI L M,TILFORD R W,BHARATHY M, et al.Enhanced hydrolytic stability of self-assembling alkylated two-dimensional covalent organic frameworks[J].Journal of the American chemical society,2011,133(35):13975.

      8. [8]

        URIBE-ROMO F J,HUNT J R,FURUKAWA H,et al.A crystalline imine-linked 3D porous covalent organic framework[J].Journal of the American chemical society, 2009, 131(13):4570.

      9. [9]

        URIBE-ROMO F J, DOONAN C J,FURUKAWA H,et al.Crystalline covalent organic frameworks with hydrazone linkages[J].Journal of the American chemical sciety,2011,133(30):11478.

      10. [10]

        JENS W,MARKUS A,ARNE T.Microporous networks of nigh-performance polymers:elastic deformations and gas sorption properties[J].Macromolecules,2008,41(8):2880.

      11. [11]

        WANG Z,ZHANG B,YU H,et al.Microporous polyimide networks with large surface areas and their hydrogen storage propertiesElectronic supplementary information (ESI) available:synthesis and characterization of monomers and polymers[J].Chemical communications,2010,46(41):7730.

      12. [12]

        CHU S,WANG Y,GUO Y,et al.Facile green synthesis of crystalline polyimide photocatalyst for hydrogen generation from water[J].Journal of materials chemistry,2012,22(31):15519.

      13. [13]

        张杰, 侯书恩, 靳洪允.聚酰亚胺类共价有机骨架多孔材料的研究进展[J].化工新型材料, 2013(3):17.

      14. [14]

        KUHN P, ANTONIETTI M,THOMAS A.Porous,covalent triazine-based frameworks prepared by ionothermal synthesis[J].Angewandte chemie international edition,2008,47(18):3450.

      15. [15]

        BOJDYS M J,JEROMENOK J,THOMAS A,et al.Rational extension of the family of layered,covalent,triazine-based frameworks with regular porosity[J].Advanced materials,2010,22(19):2202.

      16. [16]

        LI Z, ZHI Y,FENG X,et al.An azine-linked covalent organic framework:synthesis,characterization and efficient gas storage[J].Chemistry-A European journal,2015,21(34):12079.

      17. [17]

        NAGAI A, CHEN X,FENG X,et al.A squaraine-linked mesoporous covalent organic framework[J].Angewandte chemie,2013,125(13):3858.

      18. [18]

        张春燕, 罗建新, 张德春,等.共价有机骨架聚合物(COFs)的研究进展[J].化工新型材料,2014(12):19.

      19. [19]

        CAO D, LAN J, WANG W,et al.Lithium-doped 3D covalent organic frameworks:high-capacity hydrogen storage materials[J].Angewandte chemie international edition,2009,48(26):4730.

      20. [20]

        LAN J,CAO D,WANG W.Li-doped and nondoped covalent organic borosilicate framework for hydrogen storage[J].The Journal of physical chemistry C,2010,114(7):3108.

      21. [21]

        LI Y,YANG R T.Hydrogen storage in metal-organic and covalent-organic frameworks by spillover[J].AIChE journal,2008,54(1):269.

      22. [22]

        SONG Y, DAI J H.Mechanisms of dopants influence on hydrogen uptake in COF-108:a first principles study[J].International journal of hydrogen energy,2013,38(34):14668.

      23. [23]

        DING S Y,GAO J,WANG Q,et al.Construction of covalent organic framework for catalysis:Pd/COF-LZU1 in Suzuki-Miyaura coupling reaction[J].Journal of the American chemical society,2011,133(49):19816.

      24. [24]

        ZHANG P,WENG Z,GUO J,et al.Solution-dispersible,colloidal,conjugated porous polymer networks with entrapped palladium nanocrystals for heterogeneous catalysis of the suzuki-miyaura coupling reaction[J].Chemistry of materials,2011,23(23):5243.

      25. [25]

        XU H,CHEN X,GAO J,et al.Catalytic covalent organic frameworks via pore surface engineering[J].Chemical communications,2014,50(11):1292.

      26. [26]

        WU Y, XU H, CHEN X, et al.A π-electronic covalent organic framework catalyst:π-walls as catalytic beds for Diels-Alder reactions under ambient conditions[J].Chemical communications,2015,51(50):10096.

      27. [27]

        FANG Q,GU S,ZHENG J,et al.3D microporous base-functionalized covalent organic frameworks for size-selective catalysis[J].Angewandte chemie international edition,2014,53(11):2878.

      28. [28]

        WAN S, GUO J,KIM J,et al.A photoconductive covalent organic framework:self-condensed arene cubes composed of eclipsed 2D polypyrene sheets for photocurrent generation[J].Angewandte chemie international edition,2009,48(30):5439.

      29. [29]

        DING X,CHEN L,HONSHO Y,et al.An n-channel two-dimensional covalent organic framework[J].Journal of the American chemical society,2011,133(37):14510.

      30. [30]

        FENG X,CHEN L,HONSHO Y,et al.An ambipolar conducting covalent organic framework with self-sorted and periodic electron donor-acceptor ordering[J].Advanced materials,2012,24(22):3026.

      31. [31]

        HUANG N,DING X,KIM J,et al.A Photoresponsive smart covalent organic framework[J].Angewandte chemie,2015,127(30):8828.

      32. [32]

        XIANG Z,CAO D.Synthesis of luminescent covalent-organic polymers for detecting nitroaromatic explosives and small organic molecules[J].Macromolecular rapid communications,2012,33(14):1184.

      33. [33]

        冯小林.功能化共价有机框架材料的设计、合成和应用及天然产物Orisuaveolines A和B的合成研究[D].兰州:兰州大学,2013.

      34. [34]

        丁三元.功能化共价有机框架材料:设计合成、表征及应用[D].兰州:兰州大学,2014.

      35. [35]

        LI J, YANG X,BAI C,et al.A novel benzimidazole-functionalized 2D COF material:synthesis and application as a selective solid-phase extractant for separation of uranium[J].Journal of colloid and interface science,2015,437:211.

      36. [36]

        YANG C,LIU C,CAO Y,et al.Facile room-temperature solution-phase synthesis of a spherical covalent organic framework forhigh-resolution chromatographic separation[J].Chemical communications,2015,51:12254.

      37. [37]

        PACHFULE P,KANDMABETH S,MALLICK A,et al.Hollow tubular porous covalent organic framework (COF) nanostructures[J].Chemical communications,2015,51(58):11717.

      38. [38]

        FANG Q,WANG J,GU S,et al.3D porous crystalline polyimide covalent organic frameworks for drug delivery[J].Journal of the American chemical society,2015,137(26):8352.

      39. [39]

        WANG P,KANG M,SUN S,et al.Imine-linked covalent organic framework on surface for biosensor[J].Chinese journal of chemistry,2014,32(9):838.

      40. [40]

        WANG P,WU Q,HAN L,et al.Synthesis of conjugated covalent organic frameworks/graphene composite for supercapacitor electrodes[J].Rsc advances,2015,5(35):27290.

    Get Citation
    PDF
    XML

    Article Metrics

    Article views(9106) PDF downloads(802) Cited by()

    Ralated
      通讯作者: 陈斌, bchen63@163.com
      • 1. 

        沈阳化工大学材料科学与工程学院 沈阳 110142

      1. 本站搜索
      2. 百度学术搜索
      3. 万方数据库搜索
      4. CNKI搜索

      Copyright © Editorial Department of Journal of Light Industry

      Address:136 Science Avenue, Zhengzhou City, Henan Province, ChinaPostal Code:450001

      Supported by: Beijing Renhe Information Technology Co. Ltd  support: info@rhhz.net

      /

      DownLoad:  Full-Size Img  PowerPoint
      Return
      Return