综述与专论

石墨烯复合材料及作为功能性纺织材料的研究进展

展开
  • 西安工程大学纺织科学与工程学院,西安710048
龙晶(1995-),女,硕士研究生,主要从事功能性纺织材料与纺织品设计的研究。

收稿日期: 2019-08-27

  修回日期: 2019-10-02

  网络出版日期: 2021-01-21

基金资助

西安工程大学研究生创新基金资助项目(chx2019001)

Research progress on rGO composite and applied as functional textile material

Expand
  • School of Textile Science and Engineering,Xi'an Polytechnic University,Xi'an 710048

Received date: 2019-08-27

  Revised date: 2019-10-02

  Online published: 2021-01-21

摘要

作为晶格状二维平面的纳米材料,石墨烯具有相当优越的性能,在很多领域都成为研究热点,综述了石墨烯复合纤维的主要性能特点及作为功能性材料在纺织领域的研究进展。

本文引用格式

龙晶, 沈兰萍, 凌子超 . 石墨烯复合材料及作为功能性纺织材料的研究进展[J]. 化工新型材料, 2020 , 48(12) : 5 -8 . DOI: 10.19817/j.cnki.issn 1006-3536.2020.12.002

Abstract

As a 2D lattice nanomaterial,graphene(rGO) has excellent properties and has become a research hotspot in many fields.The main properties of rGO composite fibers and the research progress in textile applications as functional materials were summarized.

参考文献

[1] Eda G,Chhowalla M.Graphene-based composite thin films for electronics[J].Nano Letters,2009,9(2):814-818.
[2] Chen C W,Hung S C,Yang M D,et al.Oxygen sensors made by monolayer graphene under room temperature[J].Applied Physics Letters,2011,99(24):2435-2437.
[3] Vivekchand S R C,Rout C S,Subrah-Manyam K S,et al.Graphene-based electrochemical supercapacitors[J].Journal of Chemical Sciences,2008,120(1):9-13.
[4] Li N,Zhang Q,Gao S,et al.Three-dimen-sional graphene foam as a biocompatible and con-ductive scaffold for neural stem cells[J].Scientific Reports,2013,1604(3):1-6.
[5] Ma X X,Tao H Q T,Yang K Y,et al.Functionalized graphene oxide-iron oxide nanocomposite for magnetically targeted drug delivery,photothermal therapy,and magnetic resonance imaging[J].Nano Research,2012,5(3):199-212.
[6] Li N,Zhang Q,Gao S,et al.Three-dimensional graphene foam as a biocompatible and conductive scaffold for neural stem cells[J].Scientific Reports,2013,1604(3):1-6.
[7] 马勇,王双成,吕冬生,等.生物质石墨烯改性聚酰胺6母粒及纤维的制备和性能[J].合成纤维,2017(46):10.
[8] 吴建华.远红外纺织品的加工技术[J].染整技术,2016:87-89.
[9] 王尤山,田芝亮.一种石墨烯辐射发热膜及其制备方法和应用:中国,201310304643[P].2013-10-02.
[10] Hu W B,Peng C,Luo W J,et al.Graphene-based antibacterial paper[J].ACS Nano,2010,4(7):4317-4323.
[11] Gurunathan S,Han J W,Dayem A A,et al.Antibacterial activity ofdithiothreitol reduced graphene oxide[J].J Ind Eng Chem,2013,19(4):1280-1288.
[12] Pinto A M,Goncalves I C,Magalhaes F D.Graphene-based materials biocompatibility:a review[J].Colloid Surf B Biointerfaces,2013,111:188-202.
[13] Hegab H M,Elmekawy A,Zou L,et al.The controversial antibacterial activity of graphene-based materials[J].Carbon,2016,105:362-376.
[14] Nellore B P,Kanchanapally R,Pedraza F,et al.Bio-conjugated CNT-bridged 3D porous graphene oxide membrane for highly efficient disinfection of pathogenic bacteria and removal of toxic metals from water[J].ACS Appl Mater Inter,2015,7 (34):19210-19218.
[15] Li P,Sun S Y,Dong A,et al.Developing of a novel antibacterial agent by functionalization of graphene oxide with guanidine polymer with enhanced antibacterial activity[J].Appl Surf Sci,2015,355:446-452.
[16] Mokkapati V R S S,Koseoglu-Imer D Y,Yilmaz-Deveci N,et al.Membrane properties and anti-bacterial/anti-biofouling activity of polysulfone-graphene oxide composite membranes phase inversed in graphene oxide non-solvent[J].RSC Adv,2017,7(8):4378-4386.
[17] Dutta T,Sarkar R,Pakhira B,et al.ROS generation by reducedgraphene oxide (rGO) induced by visible light showing antibacterial activity:comparison with graphene oxide (GO)[J].RSC Adv,2015,5(98):80192-80195.
[18] 邵文尧,闫梦文,谢全灵.氧化石墨烯抗菌机理研究进展[J].化工技术与开发,2016,45:32-36.
[19] Krishnamoorthy K,Veerapandian M,Zhang L H,et al.Antibacterial efficiency of graphene nanosheets against pathogenic bacteria via lipid peroxidation[J].J Phys Chem,C 2012,116(32):17280-17287.
[20] Gurunathan S,Han J W,Dayem A A,et al.Oxidative stress-mediated antibacterial activity of graphene oxide and reduced graphene oxide inPseudomonas aeruginosa[J].Int J Nanomed,2012,7:5901-5914.
[21] 张卫玲,张健飞.毛织物抗静电整理及其影响因素[J].纺织学报,2009(3):72-75.
[22] 刘杰,孟庆霞,都波.抗静电剂及其在纺织染整加工中的应用[J].应用科技,2000(3):23-24.
[23] Ki H Y,Kim J H,Kwon S C.A study on multifunctional wool textiles treated with nano-sized silver[J].Journal of Materials Science,2007,42(19):8020-8024.
[24] Riedel J H,Hoecker H.Multifunctional polymeric UV absorbers for photostabilization of wool[J].Textile Research Journal,1996,66(11):684-689.
[25] Xu Z,Gao C.Aqueous liquid crystals of graphene oxide[J].ACS Nano,2011,5(4):2908-2915.
[26] Cong H P,Ren X C,Wang P,et al.Wet-spinning assembly of continuous,neat,and macroscopic graphene fibers[J].Scientific Reports,2012(2):1-6.
[27] Hu X,Rajendran S,Yao Y.et al.A noverl wet-spinning method of manufacturing continuous bio-inspired composites based on graphene oxide and sodium alginate[J].Nano Research,2016,9(3):735-744.
[28] He Y,Zhang N,Gong Q,et al.Aliginate/graphene oxide fibers with enchanced mechanical strength prepared by wet spinning[J].Carbohydrate Polymers,2012,88(3):1100-1108.
[29] 唐晓宁,田明伟,朱士凤,等.石墨烯及其功能纺织品的制备方法[J].棉纺织技术,2015,43(5):80-84.
[30] Tian M W,Qu L J,Zhang X S,et a1.Enhanced mechanical and thermal properties of regenerated cellulose/graphene composite fibers[J].Carbohydrate Polymers,2014,111:456-462.
[31] 青岛大学,山东海龙股份有限公司.一种石墨烯共混再生纤维素纤维及其制备方法:中国,CN201210549357.6[P].2013-4-17.
[32] 青岛大学.石墨烯功能化海藻纤维的制备方法:中国,CN201110052809.5[P].2011-9-14.
[33] 张宪胜,曲文广,田明伟,等.石墨烯粘胶复合纤维的性能研究[J].棉纺织技术,2015,43(6):15-19.
[34] Seyedin M Z,Razal J M,Innis P C,et al.Achieving outstanding mechanical performance in reinforced elastomeric composite fibers using large sheets of graphene oxide[J].Advanced Functional Materials,2015,25(1):94-104.
[35] Shateri-Khalilabad M,Yazdanshenas M E.Fabricating electro conductive cotton textiles using graphene[J].Carbohydrate Polymers,2013,96(1):190-195.
[36] Molina J,Fernandez J,Del RA,et al.Chemical and electrochemical study of fabrics coated with reduced graphene oxide[J].Applied Surface Science,2013,279:46-54.
[37] 曲丽君,田明伟,迟淑丽,等.部分石墨烯复合纤维与制品的研发[J].纺织学报,2016,37(10):170-177.
[38] 中国科学院上海应用物理研究所.一种抗菌织物及其制备方法:中国:CN 201110004877.4[P].2011-8-31.
[39] Cao J,Zhang Y,Men C,et al.Programmable writing of graphene oxide/reduce graphene oxide fibers for sensible networks with in situ welded junctions[J].ACS Nano,2014,8(5):4325-4333.
[40] Seyedin S,Raomano M S,Minett A I,et al.Towards the knit ability of grphene oxide fibres[J].Scientific Reports,2015,5:14946.
[41] Li Z P,Xu Z,Liu Y,et al.Multifunctional non-woven fabrics of interfuse graphene fibres[J].Nature Communications,2016,7:13684.
Options
文章导航

/