[1]罗妍钰,李才亮,陈国华.双螺旋碳纤维的性能与应用研究进展[J].华侨大学学报(自然科学版),2016,37(6):659-666.[doi:10.11830/ISSN.1000-5013.201606001]
 LUO Yanyu,LI Cailiang,CHEN Guohua.Research Progress on Properties and Applications of Carbon Microcoils[J].Journal of Huaqiao University(Natural Science),2016,37(6):659-666.[doi:10.11830/ISSN.1000-5013.201606001]
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双螺旋碳纤维的性能与应用研究进展()
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《华侨大学学报(自然科学版)》[ISSN:1000-5013/CN:35-1079/N]

卷:
第37卷
期数:
2016年第6期
页码:
659-666
栏目:
出版日期:
2016-11-20

文章信息/Info

Title:
Research Progress on Properties and Applications of Carbon Microcoils
文章编号:
1000-5013(2016)06-0659-08
作者:
罗妍钰 李才亮 陈国华
华侨大学 材料科学与工程学院, 福建 厦门 361021
Author(s):
LUO Yanyu LI Cailiang CHEN Guohua
College of Materials Science and Engineering, Huaqiao University, Xiamen 361021, China
关键词:
双螺旋碳纤维 力学性能 电学性能 吸波材料 传感器 生物医疗材料 超级电容器
Keywords:
carbon microcoils mechanical property electrical property absorbing material sensor biomedical material supercapacitor
分类号:
TB383;TQ324.8
DOI:
10.11830/ISSN.1000-5013.201606001
文献标志码:
A
摘要:
综述双螺旋碳纤维(CMCs)的力学性能、电学性能、热性能,以及其在导电手性吸波材料、传感器元件、复合材料、储氢材料、储气材料、超级电容器的电极材料、生物医疗材料、作为模板制备螺旋结构或中空结构化合物等方面应用的研究现状,并对双螺旋碳纤维今后的发展进行展望.
Abstract:
In this paper, the mechanical electrical and thermal properties of cabon microcoils(CMCs)are discussed. The research progress of eight application fields of CMCs, including chiral conductive absorbing material, sensor element, composite material, hydrogen storage material, gas storage material, electrode material in supercapacitor, biomedical material and template of helical or hollow structure compound are summarized and the future prospects are elaborated.

参考文献/References:

[1] DAVIS W R,SLAWSON R J,RIGBY G R.An unusual form of carbon[J].Nature,1953,171:756.
[2] BAKER R T K,BARBER M A,HARRIS P S,et al.Nucleation and growth of carbon deposits from the nickel catalyzed decomposition of acetylene[J].J Catal,1972,26(1):51-62.
[3] MOTOJIMA S,KAWAGUCHI M,NOZAKI K,et al.Preparation of coiled carbon fibers by catalytic pyrolysis of acetylene, and its morphology and extension characteristics[J].Carbon,1991,29(3):379-385.
[4] MOTOJIMA S,ASAKURA S,HIRATA M,et al.Effect of metal impurities on the growth of micro-coiled carbon fibres by pyrolysis of acetylene[J].J Mater Sci Eng B,1995,34(1):L9-L11.
[5] MOTOJIMA S,ITOH Y,ASAKURA S,et al.Preparation of micro-coiled carbon fibres by metal powder-activated pyrolysis of acetylene containing a small amount of sulphur compounds[J].J Mater Sci,1995,30(20):5049-5055.
[6] CHANG Nengkai,CHANG Shuohung.Determining mechanical properties of carbon microcoils using lateral force microscopy[J].IEEE Trans Nanotechnol,2008,7(2):197-201.
[7] MOTOJIMA S,IWANAGA H,HASHISHIN T,et al.Preparation of carbon microcoilshanocoils and ceramic microcoils, and their properties[C]//International Symposium on Micromechatronics and Human Science.[S.l.]:IEEE Press,2002:1-8.
[8] CHEN X,MOTOJIMA S,IWANGAH.Vapor phase preparation of super-elastic carbon micro-coils[J].J Cryst Growth,2002,237(1):1931-1936.
[9] YANG S,CHEN X,HASEGAWA M,et al.Conformations of super-elastic carbon micro/nano-springs and their properties[C]//International Conference on Mems, Nano and Smart Systems.Washington D C:IEEE Press,2004:32-35.
[10] HAYASHIDA T,PAN L,NAKAYAMA Y.Mechanical and electrical properties of carbon tubule nanocoils[J].Physica B Condensed Matter,2002,323(1):352-353.
[11] CHEN Xinqi,ZHANG Sulin,DIKIN D A,et al.Mechanics of a carbon nanocoil[J].Nano Lett,2003,3(9):1299-1304.
[12] KANETO K,TSURUTA M,MOTOJIMA S.Electrical properties of carbon micro coils[J].Synthetic Met,1999,103(1/2/3):2578-2579.
[13] TANG Daiming,LIU Chang,LI Feng,et al.Structural evolution of carbon microcoils induced by a direct current[J].Carbon,2009,47(3):670-674.
[14] IN-HWANG W,KUZUYA T,IWANAGA H,et al.Oxidation characteristics of the graphite micro-coils, and growth mechanism of the carbon coils[J].J Mater Sci,2001,36(4):971- 978.
[15] CHEN Xiuqin,IN-HWANG W,SHIMADA S,et al.High-temperature heat treatment of carbon microcoils obtained by chemical vapor deposition process and their properties[J].J Mater Res,2000,15(3):808-814.
[16] SHIBAGAKI K,MOTOJIMA S.Thermal behavior and effect of heat treatment in an inert gas on oxidized carbon microcoils[J].Carbon,2001,39(3):411-417.
[17] SHIBAGAKI K,MOTOJIMA S.Surface properties of carbon micro-coils oxidized by a low concentration of oxygen gas[J].Carbon,2000,38(15):2087-2093.
[18] SHIBAGAKI K,MOTOJIMA S,UMEMOTO Y,et al.Outermost surface microstructure of as-grown, heat-treated and partially oxidized carbon microcoils[J].Carbon,2001,39(9):1337-1342.
[19] BI H,KOU K C,OSTRIKOV K,et al.Graphitization of nanocrystalline carbon microcoils synthesized by catalytic chemical vapor deposition[J].J Appl Phys,2008,104(3):033510(1-6).
[20] 吴法宇,杜金红,刘辰光,等.螺旋炭纤维的微观结构与储能特性[J].新型炭材料,2004,19(2):81-85.
[21] 吴法宇,张峻巍,周艳文,等.基于双带模型的螺旋炭纤维电导特性[J].材料研究学报,2011,25(2):187-192.
[22] 赵静,林艺,徐荣臻,等.手性吸波材料研究进展[J].功能材料,2013,44(增刊1):1-4.
[23] MOTOJIMA S,HOSHIYA S,HISHIKAWA Y.Electromagnetic wave absorption properties of carbon microcoils /PMMA composite beads in W bands[J].Carbon,2003,41(13):2658-2660.
[24] CHEN Xiuqin,MOTOJIMA S,IWANAGA H.Carbon coatings on carbon micro-coils by pyrolysis of methane and their properties[J].Carbon,1999,37(11):1825-1831.
[25] KANG G H,KIM S H.Effect of incorporating carbon nanocoils on the efficiency of electromagnetic-wave shielding of carbon-nanomaterial composites[J].Appl Surf Sci,2016,380:114-118.
[26] KANG G H,KIM S H.Electromagnetic wave shielding effectiveness based on carbon microcoil-polyurethane composites[J].J Nanomaterials,2014,2014(11):24-33.
[27] SHEN Zengmin,MIN GE,ZHAO Donglin.The microwave absorbing properties of carbon microcoils[J].New Carbon Materials,2005,20(9):289-293.
[28] 王召娣,寇开昌,毕辉,等.微螺旋炭纤维手性复合吸波材料的研究[J].炭素技术,2008,27(1):16-20.
[29] MOTOJIMA S,CHEN X,YANG S,et al.Properties and potential applications of carbon microcoils/nanocoils[J].Diam Relat Mater,2004,13(11/12):1989-1992.
[30] YANG Shaoming,CHEN Xiuqin,AOKI H,et al.Tactile microsensor elements prepared from aligned superelastic carbon microcoils and polysilicone matrix[J].Smart Mater Struct,2006,15(3):687-694.
[31] KATSUNO T,CHEN X,YANG S,et al.Relationship of a carbon microcoil and carbon microcoil tactile sensor element in electrical properties[J].Diam Relat Mater,2007,16(4):1000-1003.
[32] NESSA M,MOTOJIMA S.Effects of additional amount of carbon micro-coils on the electrical properties of carbon micro-coils composite sheet as a tactile sensor[J].J Bangladesh Academy Sciences,2012,36(2):177-186.
[33] PARK J,NGUYEN T D,KIM U,et al.Design and fabrication of stretchable proximity-tactile sensor using carbon micro coils[J].Electroactive Polymer Actuators and Devices,2015,9430:1-9.
[34] YOSHIMURA K,NAKANO K,HISHIKAWA Y.Flexible tactile sensor materials based on carbon microcoil/siliconerubber porous composites[J].Compos Sci Technol,2016,123:241-249.
[35] SU Chihchung,LI Chenhung,CHANG Nengkai,et al.Fabrication of high sensitivity carbon microcoil pressure sensors[J].Sensors,2012,12(8):10034-10041.
[36] SHOWN I,IMAE T,MOTOJIMA S.Fabrication of carbon microcoil/polyaniline composite by microemulsion polymerization for electrochemical functional enhancement[J].Chem Eng J,2012,187(2):380-384.
[37] WU Guanglei,KOU Kaichang,LI Ning,et al.Electrically conductive adhesive based on bismaleimide-triazine resin filled with microcoiled carbon fibers[J].J Appl Polym Sci,2013,128(2):1164-1169.
[38] 蒋迪波,殷明志,彭焕英.微螺旋碳纤维/高密度聚乙烯复合材料电渗流行为及机制[J].中国胶粘剂,2011,20(7):20-23.
[39] YOSHIMURA K,NAKANO K,MIYAKE T,et al.Effectiveness of carbon microcoils as a reinforcing material for a polymer matrix[J].Carbon,2006,44(13):2833-2838.
[40] 安玉良,刘艳秋,袁霞,等.螺旋纳米碳纤维及聚乙烯醇复合材料的制备与性能表征[J].过程工程学报,2009,9(2):413-416.
[41] MOTOJIMA S,IN-HWANGA W,CHEN Xiuqin.Preparation and properties of microcoils and microtubes of NbC/C/NbC~NbC by vapor phase metallizing of the regular carbon microcoils[J].Mater Res Bull,2000,35(9):1517-1524.
[42] MOTOJIMA S, UESHIMA N. Vapor phase preparation and properties of NbN/C(carbon coils)/NbN-NbN micro-coils/micro-tubes[J].J Alloy Compd,2005,393(1):307-310.
[43] YANG S,UESHIMA N,MOTOJIMA S.Preparation of TaN/C(carbon microcoils)/TaN composite microtubes and TaN microtubes by vapor phase diffusion treatment of carbon microcoils[J].Mater Sci Eng A,2003,346(1/2):29-33.
[44] MOROHASHI H,TAKAHASHI Y,NISHIDA Y,et al.Grafting of polymers onto carbon microcoil by use of carboxyl groups on the surface and electric properties of conductive composite prepared from silicone rubber with the polymer-grafted carbon microcoil[J].Polym J,2007,39(4),404-410.
[45] HIKITA M,CAO Li,LAFDI K.Optical properties of carbon microcoils[J].Appl Phys Lett,2014,104(4):041905(1-4).
[46] BI H,KOU K C,RIDER A E,et al.Low-phosporous nickel-coated carbon microcoils: Controlling microstructure through an electroless plating process[J].App Surf Sci,2009,255(15):6888-6893.
[47] SHIMA M,OGURI K,OHYA Y,et al.Synthesis and magnetic behavior of nickel zinc ferrite nanoparticles coated onto carbon microcoils[J].IEEE Trans Magn,2013,49(8):4824-4826.
[48] 陈秀琴,元岛栖二.微旋管状碳纤维的微细构造和表面特性[J].材料导报,2000,14(9):56-59.
[49] HORIKOSHI S,SUTTISAWAT Y,OSAWA A,et al.Organic syntheses by microwave selective heating of novel metal/CMC catalysts: The Suzuki-Miyaura coupling reaction in toluene and the dehydrogenation of tetralin in solvent-free media[J].J Catal,2012,289(5):266-271.
[50] FURUYA Y,HASHISHIN T,IWANAGA H,et al.Interaction of hydrogen with carbon coils at low temperature[J].Carbon,2004,42(2):331-335.
[51] MOTOJIMA S,SUZUKI T,NODA Y,et al.Preparation of TiO2 microcoils from carbon microcoil templates using a sol-gel process[J].Chem Phys Lett,2003,378(1/2):111-116.
[52] QIN Yong,KIM Y,ZHANG Lianbing,et al.Preparation and elastic properties of helical nanotubes obtained by atomic layer deposition with carbon nanocoils as templates[J].Small,2010,6(8):910-914.
[53] 元岛栖二.中空微纤维及其制造方法: CN1098941[P].2000-06-14.
[54] WANG Tao,ZHU Yabo,XING Zheng,et al.The specific capacitive performances of the manganese oxyhydroxide/carbon microcoil electrodes for supercapacitors[J].Electrochim Acta,2015,151:134-139.
[55] RAKHI R B,CHA D,CHEN Wei,et al.Electrochemical energy storage devices using electrodes incorporating carbon nanocoils and metal oxides nanoparticles alshareef[J].J Physi Chem C,2011,115(29):14392-14399
[56] RAKHI R B,CHEN Wei,ALSHAREEF H N.Conducting polymer/carbon nanocoil composite electrodes for efficient supercapacitors[J].J Mater Chem,2012,22(22):5177-5183.
[57] HIROSHI T,MASAHISA O,SATORU Nakada,et al.Skin care preparation for external use: JP2002165913A[P].2004-01-15.
[58] SEIJI M,HISAE O,CHIE O.Anticancer agent and cancer-preventing food: JP2009090151A[P].2010-10-08.
[59] SEIJI M,KENJI K,SADAAKI Y.Method for preparing active oxygen species, method for purifying matter to be purified, and therapeutic agent for cancer: JP2004073250A[P].2005-09-22.
[60] TOSHIHIKO Y,SEIJI M,RYOICHIRO Yamada,et al.Analgesic member and analgesic patching material having the analgesic member: JP2010171841A[P].2011-03-10.
[61] TSUJI D H,AWADE R,POSSO I P.Cutaneous application of silicone wafers containing carbon microcoils: Efficacy in relieving chronic muscle tension and pain[J].J Altern Complem Med,2015,21(7):439-443.

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备注/Memo

备注/Memo:
收稿日期: 2016-09-08
通信作者: 陈国华(1964-),男,教授,博士,主要从事石墨烯制备及其聚合物基的研究.E-mail:hdcgh@hqu.edu.cn.
基金项目: 国家自然科学基金资助项目(51373059); 福建省厦门市科技计划项目(3502Z20150046); 华侨大学科技创新领军人才支持计划(Z14X0046)
更新日期/Last Update: 2016-11-20