碳纳米管独特的力学、电学、热学及光学性质使其在智能材料领域有着广泛的应用.综述了碳纳米管在形状记忆材料、电致变色材料、压电及电致变形材料、人工肌肉、智能凝胶等领域中的最新进展.重点介绍了碳纳米管作为热学增强组分、导电增强组分在智能材料中的应用,以及碳纳米管对智能材料响应特性的影响,并说明了其在智能材料实际应用中所存在的问题,最后展望了碳纳米管在智能材料中的发展方向.
参考文献
| [1] | Treacy M M J;Ebbesen T W;Gibson J M .Exceptionally high Young's modulus observed for individual carbon nanotubes[J].Nature,1996,381(6584):678. |
| [2] | Wildoer JWG.;Venema LC.;Rinzler AG.;Smalley RE.;Dekker C. .Electronic structure of atomically resolved carbon nanotubes[J].Nature,1998(6662):59-62. |
| [3] | Hu J T;Odom T W;Lieber C M .Chemistry and physics in one dimension:Synthesis and properties of nanowires and nanotubes[J].Accounts ChemRes,1999,32(05):435. |
| [4] | Baughman R H;Zakhidov A A;de Heer W A .Carbon nanotubes-The route toward applications[J].Science,2002,297(5582):787. |
| [5] | Jain S B;Kang P;Yeo-Heung Y.Building smart materials based on carbon nanotubes.Smart Structures and Materials 2004:Smart Electronics,Mems,Biomems and Nanotechnology[A].,2004:167. |
| [6] | Ratna, D.;Karger-Kocsis, J. .Recent advances in shape memory polymers and composites: A review[J].Journal of Materials Science,2008(1):254-269. |
| [7] | Lee, H.-F.;Yu, H.H. .Study of electroactive shape memory polyurethane-carbon nanotube hybrids[J].Soft matter,2011(8):3801-3807. |
| [8] | Zhong J;Xian G;Li L.Thermomechanical properties of multiwalled carbon nanotube reinforced shape-memory polymer nanocomposite[A].San Diego,California,USA,2010 |
| [9] | Guillermo A. Jimenez;Sadhan C. Jana .Composites of Carbon Nanofibers and Thermoplastic Polyurethanes With Shape-Memory Properties Prepared by Chaotic Mixing[J].Polymer engineering and science,2009(10):2020-2030. |
| [10] | Jana R N;Yoo H J;Cho J W .Synthesis and properties of shape memory polyurethane nanocomposites reinforced with poly(epsilon-caprolactone)grafted carbon nanotubes[J].Fibers Polym,2008,9(03):247. |
| [11] | Xiao Y;Zhou S;Wang L et al.Electro-active shape memory properties of poly(epsilon-caprolactone)/functionalized multiwalled carbon nanotube nanocomposite[J].ACS Appl Mater Interf,2010,2(12):3506. |
| [12] | Yong Chae Jung;Hye Jin Yoo;Yoong Ahm Kim .Electroactive shape memory performance of polyurethane composite having homogeneously dispersed and covalently crosslinked carbon nanotubes[J].Carbon: An International Journal Sponsored by the American Carbon Society,2010(5):1598-1603. |
| [13] | Cho J W;Kim J W;Jung Y C et al.Electroactive shapememory polyurethane composites incorporating carbon nanotubes[J].Macromolecular Rapid Communications,2005,26(05):412. |
| [14] | Jung, Y.C.;Kim, H.H.;Kim, Y.A.;Kim, J.H.;Cho, J.W.;Endo, M.;Dresselhaus, M.S. .Optically active multi-walled carbon nanotubes for transparent, conductive memory-shape polyurethane film[J].Macromolecules,2010(14):6106-6112. |
| [15] | Sahoo N G;Jung Y C;Cho J W .Electroactive shape memory effect of polyurethane composites filled with carbon nanotubes and conducting polymer[J].Materials and Manufacturing Processes,2007,22(04):419. |
| [16] | Qinghao Meng;Jinlian Hu .Self-organizing alignment of carbon nanotube in shape memory segmented fiber prepared by in situ polymerization and melt spinning[J].Composites, Part A. Applied science and manufacturing,2008(2):314-321. |
| [17] | L. Viry;C. Mercader;P. Miaudet .Nanotube fibers for electromechanical and shape memory actuators[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2010(17):3487-3495. |
| [18] | Haibao Lu;Yanju Liu;Jihua (Jan) Gou;Jinsong Leng;Shanyi Du .Surface coating of multi-walled carbon nanotube nanopaper on shape-memory polymer for multifunctionalization[J].Composites science and technology,2011(11):1427-1434. |
| [19] | Harekrishna Deka;Niranjan Karak;Ranjan Dutta Kalita .Biocompatible hyperbranched polyurethane/multi-walled carbon nanotube composites as shape memory materials[J].Carbon: An International Journal Sponsored by the American Carbon Society,2010(7):2013-2022. |
| [20] | Shanxin Xiong;Jia Wei;Pengtao Jia .Water-Processable Polyaniline with Covalently Bonded Single-Walled Carbon Nanotubes: Enhanced Electrochromic Properties and Impedance Analysis[J].ACS applied materials & interfaces,2011(3):782-788. |
| [21] | Malave Osuna R;Hernandez V;Lopez Navarrete J T et al.Ultrafast and high-contrast electrochromism on bendable transparent carbon nanotube electrodes[J].J Phys Chem Lett,2010,1(09):1367. |
| [22] | Bhandari S;Deepa M;Srivastava A K et al.Poly(3,4-ethylenedioxythiophene)-multiwalled carbon nanotube composite films:Structure-directed amplified electrochromic response and improved redox activity[J].Journal of Physical Chemistry B,2009,113(28):9416. |
| [23] | Jain V;Yochum HM;Montazami R;Heflin JR;Hu LB;Gruner G .Modification of single-walled carbon nanotube electrodes by layer-by-layer assembly for electrochromic devices[J].Journal of Applied Physics,2008(7 Pt.1):74504-1-74504-5-0. |
| [24] | Peng H et al.Electrochromatic carbon nanotube/polydiacetylene nanocomposite fibres[J].Nature Nanotechn,2009,4:738. |
| [25] | Fancheng Meng;Xiaohua Zhang;Geng Xu .Carbon Nanotube Composite Films with Switchable Transparency[J].ACS applied materials & interfaces,2011(3):658-661. |
| [26] | Kazuhiro Yanagi;Rieko Moriya;Yohei Yomogida;Taishi Takenobu;Yasuhisa Naitoh;Takao Ishida;Hiromichi Kataura;Kazuyuki Matsuda;Yutaka Manlwa .Electrochromic Carbon Electrodes: Controllable Visible Color Changes in Metallic Single-Wall Carbon Nanotubes[J].Advanced Materials,2011(25):2811-2814. |
| [27] | ARUN RAMARATNAM;NADER JALILI .Reinforcement of Piezoelectric Polymers with Carbon Nanotubes: Pathway to Next-generation Sensors[J].Journal of Intelligent Material Systems and Structures,2006(3):199-208. |
| [28] | Nicole Levi;Richard Czerw;Shuya Xing;Preethi Lyer .Properties of Polyvinylidene Difluoride-Carbon Nanotube Blends[J].Nano letters,2004(7):1267-1272. |
| [29] | Dang ZM;Yao SH;Xu HP .Effect of tensile strain on morphology and dielectric property in nanotube/polymer nanocomposites[J].Applied physics letters,2007(1):12907-1-12907-3-0. |
| [30] | Wen, R.;Ke, K.;Wang, Y.;Yang, W.;Xie, B.-H.;Yang, M.-B. .Interfacial interaction of polyvinylidene fluoride/multiwalled carbon nanotubes nanocomposites: A rheological study[J].Journal of Applied Polymer Science,2011(5):3041-3046. |
| [31] | Kim J;Loh K J;Lynch J P.Piezoelectric polymeric thin films tuned by carbon nanotube fillers[A].,2008:693232-693232-10. |
| [32] | Vidhate S;Shaito A;Chung J;D'Souza NA .Crystallization, Mechanical, and Rheological Behavior of Polyvinylidene Fluoride/Carbon Nanofiber Composites[J].Journal of Applied Polymer Science,2009(1):254-260. |
| [33] | Manna S;Nandi AK .Piezoelectric beta polymorph in poly(vinylidene fluoride)-functionalized multiwalled carbon nanotube nanocomposite films[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2007(40):14670-14680. |
| [34] | Shihai Zhang;Nanyan Zhang;Cheng Huang;Kailiang Ren;Qiming Zhang .Microstructure and Electromechanical Properties of Carbon Nanotube/ Poly(vinylidene fluoride — trifluoroethylene — chlorofluoro- ethylene) Composites[J].Advanced Materials,2005(15):1897-1901. |
| [35] | Sujay Deshmukh;Zoubeida Ounaies .Single walled carbon nanotube (SWNT)-polyimide nanocomposites aselectrostrictive materials[J].Sensors and Actuators, A. Physical,2009(2):246-252. |
| [36] | Guo WL.;Guo YF. .Giant axial electrostrictive deformation in carbon nanotubes - art. no. 115501[J].Physical review letters,2003(11):5501-0. |
| [37] | Chun Tang;Wanlin Guo;Yufeng Guo .Electrostrictive effect on electronic structures of carbon nanotubes[J].Applied physics letters,2006(24):243112.1-243112.3. |
| [38] | El-Hami K;Matsushige K .Electrostriction in single-walled carbon nanotubes[J].Ultramicroscopy,2005,105(1-4):143. |
| [39] | Brochu, P;Pei, QB .Advances in Dielectric Elastomers for Actuators and Artificial Muscles[J].Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation,2010(1):10-36. |
| [40] | Aliev A E;Oh J;Kozlov M E et al.Giant-stroke,supere lastic carbon nanotube aerogel muscles[J].Science,2009,323(5921):1575. |
| [41] | Vohrer U;Kolaric I;Haque M H et al.Carbon nanotube sheets for the use as artificial muscles[J].Carbon,2004,42(5-6):1159. |
| [42] | Foroughi J;Spinks G M;Wallace G G et al.Torsional carbon nanotube artificial muscles[J].Science,2011,334(6055):494. |
| [43] | Hu, Y.;Chen, W.;Lu, L.;Liu, J.;Chang, C. .Electromechanical actuation with controllable motion based on a single-walled carbon nanotube and natural biopolymer composite[J].ACS nano,2010(6):3498-3502. |
| [44] | Hu, Y.;Wang, G.;Tao, X.;Chen, W. .Low-voltage-driven sustainable weightlifting actuator based on polymer-nanotube composite[J].Macromolecular chemistry and physics,2011(15):1671-1676. |
| [45] | Luhua Lu;Wei Chen .Biocompatible Composite Actuator: A Supramolecular Structure Consisting of the Biopolymer Chitosan, Carbon Nanotubes, and an Ionic Liquid[J].Advanced Materials,2010(33):3745-748,3633. |
| [46] | Luhua Lu;Wei Chen .Biocompatible Composite Actuator: A Supramolecular Structure Consisting of the Biopolymer Chitosan, Carbon Nanotubes, and an Ionic Liquid[J].Advanced Materials,2010(33):3745-748,3633. |
| [47] | Luhua Lu;Wei Chen .Supramolecular self-assembly of biopolymers with carbon nanotubes for biomimetic and bio-inspired sensing and actuation[J].Nanoscale,2011(6):2412-2420. |
| [48] | Wen Zheng;Joselito M. Razal;Philip C. Whitten;Raquel Ovalle-Robles;Cordon C. Wallace;Ray H. Baughman;Geoffrey M. Spinks .Artificial Muscles Based on Polypyrrole/Carbon Nanotube Laminates[J].Advanced Materials,2011(26):2966-2970. |
| [49] | Spinks, GM;Mottaghitalab, V;Bahrami-Saniani, M;Whitten, PG;Wallace, GG .Carbon-nanotube-reinforced polyaniline fibers for high-strength artificial muscles[J].Advanced Materials,2006(5):637-640. |
| [50] | Mottaghitalab V;Xi BB;Spinks GM;Wallace GG .Polyaniline fibres containing single walled carbon nanotubes: Enhanced performance artificial muscles[J].Synthetic Metals,2006(11/13):796-803. |
| [51] | Tsuyohiko Fujigaya;Tatsuro Morimoto;Yasuro Niidome;Naotoshi Nakashima .NIR Laser-Driven Reversible Volume Phase Transition of Single-Walled Carbon Nanotube/ Poly(N-isopropylacrylamide) Composite Gels[J].Advanced Materials,2008(19):3610-3614. |
| [52] | Zhang, X.;Pint, C.L.;Lee, M.H.;Schubert, B.E.;Jamshidi, A.;Takei, K.;Ko, H.;Gillies, A.;Bardhan, R.;Urban, J.J.;Wu, M.;Fearing, R.;Javey, A. .Optically- and thermally-responsive programmable materials based on carbon nanotube-hydrogel polymer composites[J].Nano letters,2011(8):3239-3244. |
| [53] | Miyako E;Nagata H;Hirano K et al.Photodynamic thermoresponsive nanocarbon-polymer gel hybrids[J].Small,2008,4(10):1711. |
| [54] | Slawomir Kadlubowski;Artur Henke;Piotr Ulanski .Hydrogels of polyvinylpyrrolidone (PVP) and poly(acrylic acid) (PAA) synthesized by photoinduced crosslinking of homopolymers[J].Polymer: The International Journal for the Science and Technology of Polymers,2007(17):4974-4981. |
| [55] | Ye-Zi You;Jun-Jie Yan;Zhi-Qiang Yu .Multi-responsive carbon nanotube gel prepared via ultrasound-induced assembly[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2009(41):7656-7660. |
| [56] | Choi S Y;Rotermund F;Jung H et al.Femtosecond mode-locked fiber laser employing a hollow optical fiber filled with carbon nanotube dispersion as saturable absorber[J].Optics Express,2009,17(24):21788. |
| [57] | Im J H;Choi S Y;Rotermund F et al.All-fiber Er-doped dissipative soliton laser based on evanescent field interaction with carbon nanotube saturable absorber[J].Optics Express,2010,18(21):22141. |
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