JOURNAL OF LIGHT INDUSTRY

CN 41-1437/TS  ISSN 2096-1553

Volume 33 Issue 1
January 2018
Article Contents
    FAN Kaiqi, SU Zhenning, WANG Shuyuan, et al. Research progress of white light gel construction based on non-covalent bond[J]. Journal of Light Industry, 2018, 33(1): 56-71. doi: 10.3969/j.issn.2096-1553.2018.01.008
    Citation: FAN Kaiqi, SU Zhenning, WANG Shuyuan, et al. Research progress of white light gel construction based on non-covalent bond[J]. Journal of Light Industry, 2018, 33(1): 56-71. doi: 10.3969/j.issn.2096-1553.2018.01.008 shu

    Research progress of white light gel construction based on non-covalent bond

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

    • School of Chemical Engineering, Tianjin University, Tianjin 300072, China

    • Received Date: 2017-11-30
    • Based on the formation mode of white light gel, the research status of constructing white light gel with non-covalent interactions such as hydrogen bonding, π-π stacking and metal complexing was reviewed. It was pointed out that the non-covalent bonding of white light gel could make different chromophore compounds produce a dynamic and reversible one-dimensional assembly, self-assembly of aggregates could help regulate the distance between donor and acceptor molecules and dipole direction to improve the energy transfer efficiency between molecules to obtain a tunable white light gel material.This white light gel had obvious stimulus response characteristics and flexible phase transition to the outside world as well as good plastic workability, and had great potential applications in the fields of display materials, lighting equipment and the like prospect. However, the existing white light gel system had the problems of being destroyed under strong mechanical or high temperature, low gel strength and long preparation period of the dry gel. In the future,the structure-activity relationship research between the gel factor structure and the donor and acceptor energy transfer efficiency should be strengthened to promote the industrialization application of white gel as soon as possible.
    • 加载中
      1. [1]

        FORREST S R,THOMPSON M E.Introduction:Organic electronics and optoelectronics[J].Chemical Reviews,2007,107(4):923.

      2. [2]

        XIAO L,CHEN Z,QU B,et al.Recent progresses on materials for electrophosphorescent organic light-emitting devices[J].Advanced Materials,2011,23(8):926.

      3. [3]

        XIA Z,XU Z,CHEN M,et al.Recent developments in the new inorganic solid-state LED phosphors[J].Dalton Transactions,2016,45(28):11214.

      4. [4]

        VIJAYAKUMAR C,SUGIYASU K,TAKEUCHI M.Oligofluorene-based electrophoretic nanoparticles in aqueous medium as a donor scaffold for fluorescence resonance energy transfer and white-light emission[J].Chemical Science,2011,2(2):291.

      5. [5]

        GU C,FEI T,LYU Y,et al.Color-stable white electroluminescence based on a cross-linked network film prepared by electrochemical copolymerization[J].Advanced Materials,2010,22(24):2702.

      6. [6]

        FARINOLA G M,RAGNI R.Electroluminescent materials for white organic light emitting diodes[J].Chemical Society Reviews,2011,40(7):3467.

      7. [7]

        KUBO Y,NISHIYABU R.White-light emissive materials based on dynamic polymerization in supramolecular chemistry[J].Polymer,2017,128:257.

      8. [8]

        MUKHERJEE S,THILAGAR P.Organic white-light emitting materials[J].Dyes and Pigments,2014,110:2.

      9. [9]

        YAMAGUCHI K,MURAI T,GUO J D,et al.Acid-responsive absorption and emission of 5-N-Arylaminothiazoles:Emission of white light from a single fluorescent dye and a Lewis acid[J].Chemistryopen,2016,5(5):434.

      10. [10]

        YANG H,ZHANG Y,LI Y,et al.New member of luminescent materials-Status and future of white light emitting gel[J].Chinese Journal of Organic Chemistry,2017,37(8):1991.

      11. [11]

        LEE S Y,YASUDA T,YANG Y S,et al.Luminous butterflies:Efficient exciton harvesting by benzophenone derivatives for full-color delayed fluorescence OLEDs[J].Angewandte Chemie-International Edition,2014,53(25):6402.

      12. [12]

        XING P,ZHAO Z,HAO A,et al.Tailoring luminescence color conversion via affinitive coassembly of glutamates appended with pyrene and naphthalene dicarboximide units[J].Chemical Communications,2016,52(6):1246.

      13. [13]

        WEI Y,SA R,WU K.A highly stable and white-light-emitting Eu(Ⅲ) MOF[J].Dalton Transactions,2016,45(46):18661.

      14. [14]

        MALAKAR P,MODAK D,PRASAD E.Pure white light emission from organic molecules using solvent induced selective self-assembly[J].Chemical Communications,2016,52(23):4309.

      15. [15]

        KUNDU A,HARIHARAN P S,PRABAKARAN K,et al.Aggregation induced emission of excited-state intramolecular proton transfer compounds:Nanofabrication mediated white light emitting nanoparticles[J].Crystal Growth & Design,2016,16(6):3400.

      16. [16]

        JONES C D,STEED J W.Gels with sense:Supramolecular materials that respond to heat,light and sound[J].Chemical Society Reviews,2016,45(23):6546.

      17. [17]

        GOGOI M,CHATTOPADHYAY A.White light emission from quantum dot and a UV-visible emitting Pd-complex on its surface[J].Rsc Advances,2016,6(105):103095.

      18. [18]

        CHEN L,YAN C,PAN M,et al.Multi-mode white light emission in a Zn(Ⅱ) coordination polymer from excited-state intramolecular proton transfer (ESIPT) ligands[J].European Journal of Inorganic Chemistry,2016,(17):2676.

      19. [19]

        MOLLA M R,GHOSH S.Hydrogen-bonding-mediated j-aggregation and white-light emission from a remarkably simple,single-component,naphthalenediimide chromophore[J].Chemistry:A European Journal,2012,18(5):1290.

      20. [20]

        DAS A,GHOSH S.H-bonding directed programmed supramolecular assembly of naphthalene-diimide (NDI) derivatives[J].Chemical Communications,2016,52(42):6860.

      21. [21]

        BAIRI P,ROY B,CHAKRABORTY P,et al.Co-assembled white-light-emitting hydrogel of melamine[J].ACS Applied Materials & Interfaces,2013,5(12):5478.

      22. [22]

        WANG H,JI X,LI Z,et al.Preparation of a white-light-emitting fluorescent supramolecular polymer gel with a single chromophore and use of the gel to fabricate a protected quick response code[J].Materials Chemistry Frontiers,2017,1(1):167.

      23. [23]

        VERHOEVEN J W.On the role of spin correlation in the formation,decay,and detection of long-lived,intramolecular charge-transfer states[J].Journal of Photochemistry and Photobiology C:Photochemistry Reviews,2006,7(1):40.

      24. [24]

        ZHANG C,ZHAO Y S,YAO J.Organic composite nanomaterials:Energy transfers and tunable luminescent behaviors[J].New Journal of Chemistry,2011,35(5):973.

      25. [25]

        VIJAYAKUMAR C,PRAVEEN V K,AJAYAGHOSH A.RGB emission through controlled donor self-assembly and modulation of excitation energy transfer:A novel strategy to white-light-emitting organogels[J].Advanced Materials,2009,21(20):2059.

      26. [26]

        SANTHOSH B S,AIMI J,OZAWA H,et al.Solvent-free luminescent organic liquids[J].Angewandte Chemie International Edition,2012,51(14):3391.

      27. [27]

        ABBEL R,VAN DER WEEGEN R,PISULA W,et al.Multicolour self-assembled fluorene co-oligomers:from molecules to the solid state via white-light-emitting organogels[J].Chemistry:A European Journal,2009,15(38):9737.

      28. [28]

        GIANSANTE C,RAFFY G,SCHAEFER C,et al.White-light-emitting self-assembled nanofibers and their evidence by microspectroscopy of individual objects[J].Journal of the American Chemical Society,2011,133(2):316.

      29. [29]

        RAO K V,DATTA K K R,ESWARAMOORTHY M,et al.Highly pure solid-state white-light emission from solution-processable soft-hybrids[J].Advanced Materials,2013,25(12):1713.

      30. [30]

        ZHANG K Y,LIU S,ZHAO Q,et al.Stimuli-responsive metallopolymers[J].Coordination Chemistry Reviews,2016,319:180.

      31. [31]

        SONG X Z,SONG S Y,ZHANG H J.Luminescent Lanthanide Metal-Organic Frameworks[M]//Lanthanide Metal-organic Frameworks.Berlin Heidelberg:Springer,2014:109.

      32. [32]

        TANG Q,LIU S,LIU Y,et al.Color tuning and white light emission via in situ doping of luminescent lanthanide metal-organic frameworks[J].Inorganic Chemistry,2014,53(1):289.

      33. [33]

        ROY S,KATIYAR A K,MONDAL S P,et al.Multifunctional white-light-emitting metal-organic gels with a sensing ability of nitrobenzene[J].Acs Applied Materials & Interfaces,2014,6(14):11493.

      34. [34]

        ZHANG J,SU C Y.Metal-organic gels:from discrete metallogelators to coordination polymers[J].Coordination Chemistry Reviews,2013,257(7/8):1373.

      35. [35]

        TAM A Y Y,YAM V W W.Recent advances in metallogels[J].Chemical Society Reviews,2013,42(4):1540.

      36. [36]

        JUNG J H,LEE J H,SILVERMAN J R,et al.Coordination polymer gels with important environmental and biological applications[J].Chemical Society Reviews,2013,42(3):924.

      37. [37]

        ZHANG X,BALLEM M A,HU Z J,et al.Nanoscale light-harvesting metal-organic frameworks[J].Angewandte Chemie-International Edition,2011,50(25):5728.

      38. [38]

        SCHLUETTER F,WILD A,WINTER A,et al.Synthesis and characterization of new self-assembled metallo-polymers containing electron-with drawing and electron-donating bis(terpyridine) zinc(Ⅱ) moieties[J].Macromolecules,2010,43(6):2759.

      39. [39]

        CAO X,WU Y,LIU K,et al.Iridium complex triggered white-light-emitting gel and its response to cysteine[J].Journal of Materials Chemistry,2012,22(6):2650.

      40. [40]

        CAO X,LAN H,LI Z,et al.White light emission from a two-component hybrid gel via an energy transfer process[J].Physical Chemistry Chemical Physics,2015,17(48):32297.

      41. [41]

        KIM H,CHANG J Y.White light emission from a mixed organogel of lanthanide(Ⅲ)-containing organogelators[J].RSC Advances,2013,3(6):1774.

      42. [42]

        CHEN P,LI Q,GRINDY S,et al.White-light-emitting lanthanide metallogels with tunable luminescence and reversible stimuli-responsive properties[J].Journal of the American Chemical Society,2015,137(36):11590.

      43. [43]

        KUMAR P,SOUMYA S,PRASAD E.Enhanced resonance energy transfer and white-light emission from organic fluorophores and lanthanides in dendron-based hybrid hydrogel[J].ACS Applied Materials & Interfaces,2016,8(12):8068.

      44. [44]

        SUTAR P,SURESH V M,MAJI T K.Tunable emission in lanthanide coordination polymer gels based on a rationally designed blue emissive gelator[J].Chemical Communications,2015,51(48):9876.

      45. [45]

        KIM C,KIM K Y,LEE J H,et al.Chiral supramolecular gels with lanthanide ions:Correlation between luminescence and helical pitch[J].ACS Applied Materials & Interfaces,2017,9(4):3799.

    Get Citation
    PDF
    XML

    Article Metrics

    Article views(8429) PDF downloads(122) 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