碳纳米管短切技术的研究进展

碳纳米管短切技术的研究进展

Research Progress on Carbon Nanotubes Cutting Technologies

张文忠

蔡晓兰

周蕾

王子阳

李铮

易峰

余明俊

摘要

主要阐述了近年来国内外对碳纳米管(CNTs)进行短切处理的物理法(球磨法和超声波粉碎法)、化学法(液相氧化法和固相氧化法)以及联合法(电子诱导切割法、球磨液相氧化切割法和多步控制法)的研究进展; 重点针对各种短切方法的基本原理作了简明的解释和比较, 并对其今后的研究方向进行了展望。

标签碳纳米管

短切

机械力

氧化腐蚀

超声空化

电子诱导

carbon nanotube(CNT)

cutting

mechanical force

oxidation corrosion

ultrasonic cavitation

electron inducing

Abstract

The research progress on the methods of cutting carbon nanotubes (CNTs) at home and abroad was mainly elaborated, and the methods included physical methods (ball grinding method and ultrasonic degradation method), chemical methods (liquid-phase oxidation method and solid-phase oxidation method) and combined methods (electronic induction cutting method, ball grinding and liquid-phase oxidation of cutting method and multi-step control method). The basic mechanism of the various methods are explained briefly and compared, and the research indirections needed to do in the future are also prospected.

中图分类号 TB321

所属栏目综述

基金项目

收稿日期 2013/11/14

修改稿日期 2014/5/16

网络出版日期

作者单位点击查看

备注张文忠(1989-), 男, 福建南平人, 硕士研究生。

引用该论文: ZHANG Wen-zhong,CAI Xiao-lan,ZHOU Lei,WANG Zi-yang,LI Zheng,YI Feng,YU Ming-jun. Research Progress on Carbon Nanotubes Cutting Technologies[J]. Materials for mechancial engineering, 2014, 38(9): 6～11
张文忠,蔡晓兰,周蕾,王子阳,李铮,易峰,余明俊. 碳纳米管短切技术的研究进展[J]. 机械工程材料, 2014, 38(9): 6～11

论文评价

共有人对该论文发表了看法，其中：

人认为该论文很差

人认为该论文较差

人认为该论文一般

人认为该论文较好

人认为该论文很好

分享论文

参考文献

【1】IIJIMA S. Helical microtubules of graphitic carbon［J］.Nature,1991,354:56-58.

【2】BAUGMAN R H, ZAKHIDOV A A, DE HEER W A. Carbon nanotubes-the route toward applications［J］.Science,2002,297:787-792.

【3】朱长纯,刘兴辉.碳纳米管场致发射特性的研究［J］.机械工程材料,2004,28(7):45-47.

【4】DEKKER C. Carbon nanotubes as molecular quantum wires［J］.Physics Today,1999,52(5):22-30.

【5】HONE J, WHITNEY M, PISKOTI C, et al. Thermal conductivity of single-walled carbon nanotubes［J］.Physical Review:B,1999,59(4):2514- 2516.

【6】FRACKOWIAK E, GAUTIER S, GAUCHER H, et al. Electrochemical storage of lithium in multiwalled carbon nanotubes［J］.Carbon,1999,37(1):61-69.

【7】KOMATSU K, MURATA M, MURATA Y. Encapsulation of molecular hydrogen in fullerene C60 by organic synthesis［J］.Science,2005,307:238-240.

【8】RINZLER A G, HAFNER J H, NIKOLAEV P, et al. Unraveling nanotubes: field emission from an atomic wire［J］.Science,1995,269:1550-1550.

【9】QIAN D, DICKEY E C. In-situ transmission electron microscopy studies of polymer-carbon nanotube composite deformation［J］.Journal of Microscopy,2001,204(1):39-45.

【10】杨益,杨盛良.碳纳米管增强金属基复合材料的研究现状及展望［J］.材料导报,2007,21(S1):182-184.

【11】RASTOGI R, KAUSHAL R, TRIPATHI S K, et al. Comparative study of carbon nanotube dispersion using surfactants［J］.Journal of Colloid and Interface Science,2008,328(2):421-428.

【12】易国军, 陈小华, 蒋文忠, 等.碳纳米管的表面改性与镍的包覆［J］.中国有色金属学报, 2004,14(3):479-483.

【13】陈传盛,刘天贵,陈小华, 等.碳纳米管的表面修饰及其应用［J］.机械工程材料,2007,31(11):1-5.

【14】SUBRAMANIAM K, DAS A, SIMON F, et al. Networking of ionic liquid modified CNTs in SSBR［J］.European Polymer Journal,2012,49(2):345-352.

【15】GAO B, BOWER C, LORENTZEN J D, et al. Enhanced saturation lithium composition in ball-milled single-walled carbon nanotubes［J］.Chemical Physics Letters,2000,327(1):69-75.

【16】CHEN L, PANG X, ZHANG Q, et al. Cutting of carbon nanotubes by a two-roller mill［J］.Materials Letters,2006,60(2):241-244.

【17】孟振强, 刘如铁, 熊拥军, 等. 球磨方式对多壁碳纳米管形貌和结构的影响［J］.中国有色金属学报,2012,22(12):3421-3426.

【18】PIERARD N, FONSECA A, KONYA Z, et al. Production of short carbon nanotubes with open tips by ball milling［J］.Chemical Physics Letters,2001,335(1):1-8.

【19】陈永,刘畅,成会明.多壁纳米碳管的超声短切处理［J］.炭素技术,2007,26(5): 20-23.

【20】刘博,刘云芳,迟伟东,等.不同碱和酸处理对碳纳米管结构和形貌的影响［J］.炭素技术, 2008,27(4):1-6.

【21】贾士强,张琳,张立旻,等.定向多壁碳纳米管纯化研究［J］.纤维复合材料,2007(4): 40-44.

【22】TRAN M Q, TRIDECH C, ALFREY A, et al. Thermal oxidative cutting of multi-walled carbon nanotubes［J］.Carbon,2007,45(12):2341-2350.

【23】RAUWALD U, SHAVER J, KLOSTERMAN D A, et al. Electron-induced cutting of single-walled carbon nanotubes［J］.Carbon,2009,47(1):178-185.

【24】REN F, KANAAN S A, KHALKHAL F, et al. Controlled cutting of single-walled carbon nanotubes and low temperature annealing［J］.Carbon,2013,63:61-70.

【25】WANG X X, WANG J N. Preparation of short and water-dispersible carbon nanotubes by solid-state cutting［J］.Carbon,2008,46(1):117-125.

【26】张婵,郑爽英.超声空化效应及其应用［J］.水资源与水工程学报,2009,20(1):136-138.

【27】SUSLICK K S. The chemical effects of ultrasound［J］.Scientific American,1989,260(2):80-86.

【28】LIU Y, SHEN Z, YOKOGAWA K. Investigation of preparation and structures of activated carbon nanotubes［J］.Materials Research Bulletin,2006,41(8):1503-1512.

【29】TRAN M Q, TRIDECH C, ALFREY A, et al. Thermal oxidative cutting of multi-walled carbon nanotubes［J］.Carbon, 2007,45(12):2341-2350.

【30】AN K H, PARK K A, HEO J G, et al. Structural transformation of fluorinated carbon nanotubes induced by in situ electron-beam irradiation［J］.Journal of the American Chemical Society,2003,125(10):3057-3061.

【31】BANHART F. Irradiation effects in carbon nanostructures［J］.Reports on Progress in Physics,1999,62(8):1181-1221.

【32】RAUWALD U, SHAVER J, KLOSTERMAN D A, et al. Electron-induced cutting of single-walled carbon nanotubes［J］.Carbon,2009,47(1):178-185.

【33】CHEN Z, ZIEGLER K J, SHAVER J, et al. Cutting of single-walled carbon nanotubes by ozonolysis［J］.The Journal of Physical Chemistry: B,2006,110(24):11624-11627.

【34】YUZVINSKY T D, FENNIMORE A M, MICKELSON W, et al. Precision cutting of nanotubes with a low-energy electron beam［J］.Applied Physics Letters,2005,86(5):053109-053109-3.

【35】WANG X X, WANG J N. Preparation of short and water-dispersible carbon nanotubes by solid-state cutting［J］.Carbon,2008,46(1):117-125.

相关信息

	标题	相关频次
	搅拌轴线速度对MWCNTs/Cu复合粉体和材料性能的影响	10
	碳纳米管增强铝基复合材料的研究进展	10
	38MnVS非调质钢汽车半轴的研制	2
	VDSiCrV钢气门弹簧断裂原因分析	2
	电除尘器极线腐蚀失效原因分析	2
	分散剂对电泳沉积制备碳纳米管薄膜形貌和场发射性能的影响	2
	高强超细孪晶纯铜的单向静拉伸断裂行为	2
	高温超声探头的制作及性能试验	2
	锅炉水冷壁过热管穿孔失效原因	2
	锅炉旋风分离器水冷壁过热管开裂原因	2
	遥控器印制线路板腐蚀失效原因	2
	再热主汽门轴封蒸汽疏水管线失效分析	2
	高密度半导体阵列碳纳米管研究获突破	1
	碳家族再添新成员由18个原子组成的环碳问世	1
	#电子材料周报#电子高速公路，想象你的电脑可以被卷起来	1
	#高分子材料周报#大显神通的木纤维素	1
	#新能源周报#能源与设备间正走向无线化	1
	“最黑材料”可吞噬绚丽钻石	1
	《JACS》：中科大合成出首例单一手性指数单壁碳纳米管长共轭链段	1
	《Nature》：实现量产！剪切流诱导超强纳米复合材料	1
	《Nature》重大里程碑：史上最大碳纳米管芯片！	1
	《Nature》子刊发表我国学者碳纳米材料生物毒性重磅文章	1
	《Nature》子刊重磅：北大彭练矛课题组制备出高性能碳管晶体管！	1
	《Science》子刊：高性能碳纳米管透明导电薄膜研究取得进展	1
	《自然》：蓝绿藻+碳纳米管造生物光伏电池可经生物降解	1
	《自然》《科学》一周（10.12-10.18）材料科学前沿要闻	1
	《自然》杂志评出2015年度十大人物两中国科学家上榜	1
	【NS精读】金属基底焕生的碳纳米管	1
	1nm晶体管面世，摩尔定律有救？	1
	2019年度国家科学技术奖揭晓，石墨烯、碳纳米管榜上有名	1