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Carbon Nanotube Electroactive Polymer Materials: Opportunities and Challenges

Abstract
Abstract

Carbon nanotubes (CNTs) with macroscopically ordered structures (e.g., aligned or patterned mats, fibers, and sheets) and associated large surface areas have proven promising as new CNT electroactive polymer materials (CNT-EAPs) for the development of advanced chemical and biological sensors. The functionalization of CNTs with many biological species to gain specific surface characteristics and to facilitate electron transfer to and from them for chemical- and bio-sensing applications is an area of intense research activity.

Mechanical actuation generated by CNT-EAPs is another exciting electroactive function provided by these versatile materials. Controlled mechanical deformation for actuation has been demonstrated in CNT mats, fibers, sheets, and individual nanotubes. This article summarizes the current status and technological challenges for the development of electrochemical sensors and electromechanical actuators based on carbon nanotube electroactive materials.

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1.H. Marsh , Introduction to Carbon Science (Butterworth, London, 1989).

2.H.W. Kroto , J.R. Heath , S.C. Obrien , R.F. Curl , R.E. Smalley , Nature 318, 162 (1985).

3.A. Hirsch , The Chemistry of the Fullerenes (Thieme, Stuttgart, 1994).

5.L. Dai , Ed., Carbon Nanotechnology: Recent Developments in Chemistry, Physics, Materials Science and Device Applications (Elsevier, Amsterdam, 2006).

8.R.H. Baughman , A.A. Zakhidov , W.A. de Heer , Science 297, 787 (2002).

9.M.S. Dresselhaus , H. Dai , MRS Bull. 29, 237 (2004).

13.Y. Yan , M.B. Chan-Park , Q. Zhang , Small 3, 24 (2007) and reference cited therein.

14.B.Q. Wei , R. Vajtai , Y. Jung , J. Ward , R. Zhang , G. Ramanath , P.M. Ajayan , Nature 416, 495 (2002).

15.W.Z. Li , S.S. Xie , L.X. Qian , B.H. Chang , B.S. Zou , W.Y. Zhou , R.A. Zhao , and G. Wang , Science 274, 1701 (1996).

16.Z.W. Pan , S.S. Xie , B.H. Chang , C.Y. Wang , L. Lu , W. Liu , M.Y. Zhou , W.Z. Li , Nature 394, 631 (1998).

17.S. Fan , M.G. Chapline , N.R. Franklin , T.W. Tombler , A.M. Cassell , H.J. Dai , Science 283, 512 (1999).

19.Z.F. Ren , Z.P. Huang , J.W. Xu , J.H. Wang , P. Bush , M.P. Siegal , P.N. Provencio , Science 282, 1105 (1998).

20.S. Huang , L. Dai , A.W.H. Mau , J. Phys. Chem. B 103, 4223 (1999).

21.Y. Yang , S. Huang , H.Z. He , A.W.H. Mau , L. Dai , J. Am. Chem. Soc. 121, 10832 (1999).

22.A. Patil , T. Ohashi , A. Buldum , L. Dai , Appl. Phys. Lett. 89, 103103 (2006).

23.K. Hata , K. Hata , D.N. Futaba , K. Mizuno , T. Namai , M. Yumura , S. Iijima , Science 306, 1362 (2004).

24.G. Zhang , D. Mann , L. Zhang , A. Javey , Y. Li , E. Yenilmez , Q. Wang , J. P. McVittie , Y. Nishi , J. Gibbons , H. Dai , Proc. Natl. Acad. Sci. USA 102, 16141 (2005).

25.G. Eres , A.A. Kinkhabwala , H. Cui , D.B. Geohegan , A.A. Puretzky , D.H. Lowndes , J. Phys. Chem. B 109, 16684 (2005).

26.T. Iwasaki , G. Zhong , T. Aikawa , T. Yoshida , H. Kawarada , J. Phys. Chem. B 109, 19556 (2005).

27.Y.Q. Xu , E. Flor , M.J. Kim , B. Hamadani , H. Schmidt , R.E. Smalley , R.H. Hauge , J. Am. Chem. Soc. 128, 6560 (2006).

28.M. Cantoro , S. Hofmann , S. Pisana , V. Scardaci , A. Parvez , C. Ducati , A.C. Ferrari , A.M. Blackburn , K.Y. Wang , J. Robertson , Nano Lett. 6, 1107 (2006).

29.Y. Murakami , S. Chiasi , Y. Miyauchi , M. Hu , M. Ogura , T. Okubo , S. Maruyama , Chem. Phys. Lett. 385, 298 (2004).

30.L. Zhang , Y.Q. Tan , D.E. Resasco , Chem. Phys. Lett. 422, 198 (2006).

31.S. Chakrabarti , T. Nagasaka , Y. Yoshikawa , L. Pan , Y. Nakayama , Jpn. J. Appl. Phys., 45, L720 (2006).

32.G.F. Zhong , T. Iwasaki , K. Honda , Y. Furukawa , I. Ohdomari , H. Kawarada , Jpn. J. Appl. Phys. 44, 1558 (2005).

33.J. Yang , L.T. Qu , Y. Zhao , Q.H. Zhang , L.M. Dai , J.W. Baur , B. Maruyama , R.A. Vaia , E. Shin , P.T. Murray , H.X. Luo , Z.X. Guo , J. Nanosci. Nanotechnol. 7, 1573 (2007).

34.L.T. Qu , L. Dai , J. Mater. Chem. 17, 3401 (2007).

35.J. Yang , L. Dai , R.A. Vaia , J. Phys. Chem. B 107, 12387 (2003).

36.Y. Li , Y. Li , D. Mann , M. Rolandi , W. Kim , A. Ural , S. Hung , A. Javey , J. Cao , D. Wang , E. Yenilmez , Q. Wang , J.F. Gibbons , Y. Nishi , H. Dai , Nano Lett. 4, 317 (2004).

37.Y. Li , S. Peng , D. Mann , J. Cao , R. Tu , K.J. Cho , H. Dai , J. Phys. Chem. B 109, 6968 (2005).

38.S.M. Bachilo , L. Balzano , J.F. Herrera , F. Pompeo , D.E. Resasco , R.B. Weisman , J. Am. Chem. Soc. 125, 11186 (2003).

39.R. Krupke , F. Hennrich , H.v. Löhneysen , M.M. Kappes , Science 301, 344 (2003).

40.D. Chattopadhyay , I. Galeska , F. Papadimitrakopoulos , J. Am. Chem. Soc. 125, 3370 (2003).

41.M. Zheng , M. Zheng , A. Jagota , M.S. Strano , A.P. Santos , P. Barone , S.G. Chou , B.A. Diner , M.S. Dresselhaus , R.S. McLean , G.B. Onoa , G.G. Samsonidze , E.D. Semke , M. Usrey , D.J. Walls , Science 302, 1545 (2003).

42.Y. Maeda , S. Kimura , M. Kanda , Y. Hirashima , T. Hasegawa , T. Wakahara , Y. Lian , T. Nakahodo , T. Tsuchiya , T. Akasaka , J. Lu , X. Zhang , Z. Gao , Y. Yu , S. Nagase , S. Kazaoui , N. Minami , T. Shimizu , H. Tokumoto , R. Saito , J. Am. Chem. Soc. 127, 10287 (2005).

44.M.S. Strano , C.A. Dyke , M.L. Usrey , P.W. Barone , M.J. Allen , H. Shan , C. Kittrell , R.H. Hauge , J.M. Tour , R.E. Smalley , Science 301, 1519 (2003).

45.K. Kamaras , M.E. Itkis , H. Hu , B. Zhao , R.C. Haddon , Science 301, 1501 (2003).

46.Z. Chen , X. Du , M.H. Du , C.D. Rancken , H.P. Cheng , A.G. Rinzler , Nano Lett. 3, 1245 (2003).

47.M.S. Arnold , A.A. Green , J.F. Hulvat , S.I. Stupp , M.C. Hersam , Nat. Nanotech. 1, 60 (2006).

48.P. Collins , M.S. Arnold , P. Avouris , Science 292, 706 (2001).

49.L. An , Q. Fu , C. Lu , J. Liu , J. Am. Chem. Soc. 126, 10520 (2004).

50.G. Zhang , P. Qi , X. Wang , Y. Lu , X. Li , R. Tu , S. Bangsaruntip , D. Mann , L. Zhang , H. Dai , Science 314, 974 (2006).

51.M. Zhang , K. Atkinson , R. Baughman , Science 306, 1358 (2004).

52.M. Zhang , S. Fang , A.A. Zakhidov , S.B. Lee , A.E. Aliev , C.D. Williams , K.R. Atkinson , R.H. Baughman , Science 309, 1215 (2005).

54.K. Jiang , Q. Li , S. Fan , Nature 419, 801 (2002).

55.L.M. Ericson , H. Fan , H. Peng , V.A. Davis , W. Zhou , J. Sulpizio , Y. Wang , R. Booker , J. Vavro , C. Guthy , A.N.G. Parra-Vasquez , M.J. Kim , S. Ramesh , R.K. Saini , C. Kittrell , G. Lavin , H. Schmidt , W.W. Adams , W.E. Billups , M. Pasquali , W.F. Hwang , R.H. Hauge , J.E. Fischer , R.E. Smalley , Science 305, 1447 (2004).

56.Y. Li , I.A. Kinloch , A.H. Windle , Science 304, 274 (2004).

57.L. Ci , N. Punbusayakul , J. Wei , R. Vajtai , S. Talapatra , P.M. Ajayan , Adv. Mater. 19, 1719 (2007).

58.N.W.S. Kam , Z. Liu , H. Dai , Angew. Chem. Int. Ed. 45, 577 (2006).

59.N. Kam , M. O'Connell , J.A. Wisdom , H.J. Dai , Proc. Natl. Acad. Sci. USA 102, 11600 (2005).

60.A. Bianco , J. Hoebeke , S. Godefroy , O. Chaloin , D. Pantarotto , J.-P. Briand , S. Muller , M. Prato , C.D. Partidos , J. Am. Chem. Soc. 127, 58 (2005).

61.P. Cherukuri , S.M. Bachilo , S.H. Litovsky , R.B. Weisman , J. Am. Chem. Soc. 126, 15638 (2004).

62.Y. Liu , D. Wu , W. Zhang , X. Jiang , C. He , T.S. Chung , S.H. Goh , K.W. Leong , Angew. Chem. Int. Ed. 44, 4782 (2005).

63.Q. Lu , J.M. Moore , G. Huang , A.S. Mount , A.M. Rao , L.L. Larcom , P.C. Ke , Nano Lett. 4, 2473 (2004).

65.J. Kong , N.R. Franklin , C. Zhou , M.G. Chapline , S. Peng , K. Cho , H. Dai , Science 287, 622 (2000).

66.J. Kong , M.G. Chapline , H. Dai , Adv. Mater. 13, 1384 (2001).

67.P.G. Collins , K. Bradley , M. Ishigami , A. Zettl , Science 287, 1801 (2000).

68.C.K.W. Adu , G.U. Sumanasekera , B.K. Pradhan , H.E. Romero , P.C. Eklund , Chem. Phys. Lett. 337, 31 (2001).

69.H.E. Romero , K. Bolton , A. Rosén , P.C. Eklund , Science 307, 89 (2005).

70.A. Modi , N. Koratkar , E. Lass , B. Wei , P.M. Ajayan , Nature 424, 171 (2003).

72.C. Wei , L. Dai , A. Roy , T.B. Tolle , J. Am. Chem. Soc. 128, 1412 (2006).

73.D. Tasis , N. Tagmatarchis , A. Bianco , M. Prato , Chem. Rev. 106, 1105 (2006).

74.Y.J. Jung , S. Kar , S. Talapatra , C. Soldano , G. Viswanathan , X. Li , Z. Yao , F.S. Ou , A. Avadhanula , R. Vajtai , S. Curran , O. Nalamasu , P.M. Ajayan , Nano Lett. 6, 413 (2006).

77.L. Ge , S. Sethi , L. Ci , P.M. Ajayan , A. Dhinojwala , PNAS 104, 10792 (2007).

78.L. Qu , L. Dai , Adv. Mater. 19, 3844 (2007).

79.M. Valcárcel , B.M. Simonet , S. Cárdenas , B. Suárez , Anal. Bioanal. Chem. 382, 1783 (2005).

80.G. Zhao , L. Zhang , X. Wei , Z. Yang , Electrochem. Commun. 5, 825 (2003).

81.J. Wang , M. Li , Z. Shi , N. Li , Z. Gu , Anal. Chem. 74, 1993 (2002).

82.J.J. Gooding , R. Wibowo , J.Q. Liu , W. Yang , D. Losic , S. Orbons , F.J. Mearns , J.G. Shapter , D.B. Hibbert , J. Am. Chem. Soc. 125, 9006 (2003).

83.M. Gao , S. Huang , L. Dai , G. Wallace , R. Gao , Z. Wang , Angew. Chem. Int. Ed. 39, 3664 (2000).

84.M. Gao , L. Dai , G.G. Wallace , Electroanalysis 15, 1089 (2003).

85.M. Yasuzawa , A. Kunugi , Electrochem. Commun. 1, 459 (1999).

87.J. Wang , M. Musameh , Y. Lin , J. Am. Chem. Soc, 125, 2408 (2003).

88.J.H.T. Luong , S. Hrapovic , D. Wang , F. Bensebaa , B. Simard , Electroanalysis 16, 132 (2004).

89.Y. Lin , F. Lu , Y. Tu , Z. Ren , Nano Lett. 4, 191 (2004).

90.Y. Tu , Y. Lin , Z. Ren , Nano Lett. 3, 107 (2003).

91.Y. Tu , Z.P. Huang , D.Z. Wang , J.G. Wen , Z.F. Ren , Appl. Phys. Lett. 80, 4018 (2002).

92.X. Yu , D. Chattopadhyay , I. Galeska , F. Papadimitrakopoulos , J.F. Rusling , Electrochem. Commun. 5, 408 (2003).

93.F. Patolsky , Y. Weizmann , I. Willner , Angew. Chem. Int. Ed. 43, 2113 (2004).

94.Y. Xu , Y. Jiang , H. Cai , P. He , Y. Fang , Anal. Chim. Acta 516, 19 (2004) and references therein.

95.J. Wang , G. Liu , M.R. Jan , J. Am. Chem. Soc. 126, 3010 (2004) and references therein.

97.J. Koehne , M. Meyyappan , Nanotechnology 14, 1239 (2003) and references therein.

100.B.J. Hinds , N. Chopra , T. Rantell , R. Andrews , V. Gavalas , L.G. Bachas , Science 303, 62 (2004).

101.M. Majumder , N. Chopra , R. Andrews , B.J. Hinds , Nature 438, 44 (2005).

102.H. Dai , J.H. Hafner , A.G. Rinzler , D.T. Colbert , R.E. Smalley , Nature 384, 147 (1996).

103.S.S. Wong , J.D. Harper , P.T. Lansbury Jr, C.M. Lieber , J. Am. Chem. Soc. 120, 603 (1998).

104.C.V. Nguyen , C. So , R.M. Stevens , Y. Li , L. Delziet , P. Sarrazin , M. Meyyappan , J. Phys. Chem. B 108, 2816 (2004).

107.R.J. Grow , Q. Wang , J. Cao , D. Wang , H. Dai , Appl. Phys. Lett. 86, 093104 (2005).

108.J.R. Wood , H.D. Wagner , Appl. Phys. Lett. 76, 2883 (2000).

110.C. Hierold , A. Jungen , C. Stampfer , T. Helbling , Sens. Actuators A, Phys.136, 51 (2007).

111.P. Král , M. Shapiro , Phys. Rev. Lett. 86, 131 (2001).

112.S. Ghosh , A.K. Sood , N. Kumar , Science 299, 1042 (2003).

113.J. Liu , L. Dai , J.W. Baur , J. Appl. Phys. 101, 064312 (2007).

114.S. Frank , P. Poncharal , Z.L. Wang , W.A. de Heer , Science 280, 1744 (1998).

115.R. Gao , Z.L. Wang , Z. Bai , W.A. de Heer , L. Dai , M. Gao , Phys. Rev. Lett. 85, 622 (2000).

116.R.H. Baughman , Synth. Met. 78, 339 (1996).

117.R.H. Baughman , C. Cui , A.A. Zakhidov , Z. Iqbal , J.N. Barisci , G.M. Spinks , G.G. Wallace , A. Mazzoldi , D. De Rossi , A.G. Rinzler , O. Jaschinski , S. Roth , M. Kertesz , Science 284, 1340 (1999).

118.K. Mølhave , T.M. Hansen , D.N. Madsen , P. Bøggild , J. Nanosci. Nanotech. 4, 279 (2004).

119.P. Kim , C.M. Lieber , Science 286, 2148 (1999).

120.J. Lee , S. Kim , Sens. Actuators A, Phys.120, 193 (2005).

121.C.H. Ke , H.D. Espinosa , Appl. Phys. Lett. 85, 681 (2004).

122.T. Rueckes , K. Kim , E. Joselevich , G.Y. Tseng , C.-L. Cheung , C.M. Lieber , Science 289, 94 (2000).

123.V. Sazonova , Y. Yaish , H. Üstünel , D. Roundy , T.A. Arias , P.L. McEuen , Nature 431, 284 (2004).

124.R. Lefèvre , M.F. Goffman , V. Derycke , C. Miko , L. Forró , J.P. Bourgoin , P. Hesto , Phys. Rev. Lett. 95, 185504 (2005).

125.A.M. Fennimore , T.D. Yuzvinsky , W.Q. Han , M.S. Fuhrer , J. Cumings , A. Zettl , Nature 424, 408 (2003).

126.A. Subramanian , L.X. Dong , J. Tharian , U. Sennhauser , B.J. Nelson , Nanotechnology 18, 075703 (2007).

127.T.D. Yuzvinsky , A.M. Fennimore , A. Kis , A. Zettl , Nanotechnology 17, 434 (2006).

128.S.J. Papadakis , A.R. Hall , P.A. Williams , L. Vicci , M.R. Falvo , R. Superfine , S. Washburn , Phys. Rev. Lett. 93, 146101 (2004).

129.J.C. Meyer , M. Paillet , S. Roth , Science 309, 1539 (2005).

130.M. Nakajima , S. Arai , Y. Saito , F. Arai , T. Fukuda , Jap. J. Appl. Phys. Part 2, 46, L1035 (2007).

131.J. Cumings , A. Zettl , Science, 289, 602 (2000).

132.L.X. Dong , B.J. Nelson , T. Fukuda , F. Arai , IEEE Tran. Autom. Sci. Eng. 3, 228 (2006).

133.V.V. Deshpande , H.-Y. Chiu , H.W.Ch. Postma , C. Miko , L. Forro , M. Bockrath , Nano Lett. 6, 1092 (2006).

134.Y.N. Garstein , A.A. Zakhidov , R.H. Baughman , Phys. Rev. B 68, 115415 (2003).

135.S. Gupta , M. Hughes , A.H. Windle , J. Robertson , Diamond Relat. Mater. 13, 1314 (2004).

136.S. Gupta , Diamond Relat. Mater. 15, 378 (2006).

137.M. Gao , L. Dai , R.H. Baughman , G.M. Spinks , G.G. Wallace , Proc. SPIE 3987, 18 (2000).

138.J. Fraysse , A.I. Minett , O. Jaschinski , G.S. Duesberg , S. Roth , Carbon 40, 1735 (2002).

139.M. Hughes , G.M. Spinks , Adv. Mater. 17, 443 (2005)

140.G.M. Spinks , G.G. Wallace , L.S. Fifield , L.R. Dalton , A. Mazzoldi , D. Do Rossi , I.I. Khayrullin , R.H. Baughman , Adv. Mater. 14, 1728 (2002).

141.J.N. Barisci , G.G. Wallace , D.R. MacFarlane , R.H. Baughman , Electrochem. Commun. 6, 22 (2004).

142.T. Mirfakhrai , J. Oh , M. Kozlov , E.C.W. Fok , M. Zhang , S. Fang , R.H. Baughman , J.D.W. Madden , Smart Mater. Struct. 16, S243 (2007).

143.T. Fukushima , K. Asaka , A. Kosaka , T. Aida , Angew. Chem. Int. Ed. 44, 2410 (2005).

144.U. Vohrer , I. Kolaric , M.H. Haque , S. Roth , U. Detlaff-Weglikowska , Carbon 42, 1159 (2004).

145.E. Munoz , A.B. Dalton , S. Collins , M. Kozlov , J. Razal , J.N. Coleman , B.G. Kim , V.H. Ebron , M. Selvidge , J.P. Farraris , R.H. Baughman , Adv. Eng. Mater. 6, 801 (2004).

146.J.D.W. Madden , J.N. Barisci , P.A. Anquetil , G.M. Spinks , G.G. Wallace , R.H. Baughman , I.W. Hunter , Adv. Mater. 18, 870 (2006).

147.J.N. Barisci , G.M. Spinks , G.G. Wallace , J.D. Madden , R.H. Baughman , Smart Mater. Struct. 12, 549 (2003).

148.Y. Yun , V. Shanov , Y. Tu , M.J. Schulz , S. Yarmolenko , S. Neralla , J. Sankar , S. Subramaniam , Nano Lett. 6, 689 (2006).

149.B. Vigolo , A. Pénicaud , C. Coulon , C. Sauder , R. Pailler , C. Journet , P. Bernier , P. Poulin , Science 290, 1331 (2000).

150.J. Fraysse , A.I. Minett , G. Gu , S. Roth , A.G. Rinzler , R.H. Baughman , Curr. Appl. Phys. 1, 407 (2001).

151.V.H. Ebron , Z. Yang , D.J. Seyer , M.E. Kozlov , J. Oh , H. Xie , J. Razal , L.J. Hall , J.P. Ferraris , A.G. MacDiarmid , R.H. Baughman , Science 311, 1580 (2006).

152.J.D. Madden , Science 311, 1559 (2006).

153.G.M. Spinks , V. Mottaghitalab , M. Bahrami-Samani , P.G. Whitten , G.G. Wallace , Adv. Mater. 18, 637 (2006).

154.M. Tahhan , V.-T. Truong , G.M. Spinks , G.G. Wallace , Smart Mater. Struct. 12, 626 (2003).

155.B.J. Landi , R.P. Raffaelle , M.J. Heben , J.L. Alleman , W. VanDerveer , T. Gennett , Nano Lett. 2, 1329 (2002).

157.J. Shi , Z.-X. Guo , B. Zhan , H. Luo , Y. Li , D. Zhu , J. Phys. Chem. B 109, 14789 (2005).

158.G.M. Spinks , S.R. Shin , G.G. Wallace , P.G. Whitten , I.Y. Kim , S.I. Kim , S.J. Kim , Sens. Actuators B, Chem. 121, 616 (2007).

159.X. Tong , J. Zheng , Y. Lu , Z. Zhang , H. Cheng , Mater. Lett. 61, 1704 (2007).

160.S. Courty , J. Mine , A.R. Tajbakhsh , E.M. Terentjev , Europhys. Lett. 64, 654 (2003).

161.S.Y. Yun , J. Kim , Z. Ounaies , Smart Mater. Struct. 15, N61 (2006).

162.D.B. Cho , J. Suhr , N.A. Koratkar , J. Intell. Mater. Syst. Struct. 17, 209 (2006).

163.X. Yu , R. Rajamani , K.A. Stelson , T. Cui , Sens. Actuators A, Phys.132, 626 (2006).

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MRS Bulletin
  • ISSN: 0883-7694
  • EISSN: 1938-1425
  • URL: /core/journals/mrs-bulletin
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