J Mater Sci Technol ›› 2008, Vol. 24 ›› Issue (04): 569-577.
• Research Articles • Previous Articles Next Articles
Xiuyun SUN, Yugang SUN
Received:
2007-12-11
Revised:
1900-01-01
Online:
2008-07-28
Published:
2009-10-10
Contact:
Yugang Sun
[1]S.Iijima:Nature,1991,354,56. [2]N.Hamada,S.I.Sawada and A.Oshiyama:Phys.Rev. Lett.,1992,68(10),1579. [3]C.T.White and J.W.Mintmire:J.Phys.Chem.B, 2005,109(1),52. [4]C.L.Kane and E.J.Mele:Phys.Rev.Lett.,1997, 78(10),1932. [5]G.Gruner:J.Mater.Chem.,2006,16(35),3533. [6]Q.Cao,Z.T.Zhu,M.G.Lemaitre,M.G.Xia,M.Shim and J.A.Rogers:Appl.Phys.Lett.,2006,88,113511. [7]S.J.Tans,A.R.M.Verschueren and C.Dekker:Nature, 1998,393,49. [8]A.Javey,J.Guo,Q.Wang,M.Lundstrom and H.Dai: Nature,2003,424,654. [9]W.Kim,H.C.Choi,M.Shim,Y.Li,D.Wang and H.Dai: Nano Lett.,2002,2(7),703. [10]S.Rosenblatt,Y.Yaish,J.Park,J.Gore,V.Sazonova and P.L.McEuen:Nano Lett.,2002,2(8),869. [11]S.Li,Z.Yu,C.Rutherglen and P.J.Burke:Nano Lett., 2004,4(10),2003. [12]C.Klinke,J.B.Hannon,A.Afzali and P.Avouris:Nano Lett.,2006,6(5),906. [13]A.Bachtold,P.Hadley,T.Nakanishi and C.Dekker: Science,2001,294,1317. [14]A.Javey,Q.Wang,A.Ural,Y.Li and H.Dai:Nano Lett.,2002,2(9),929. [15]E.S.Snow,J.P.Novak,P.M.Campbell and D.Park: Appl.Phys.Lett.,2003,82(13),2145. [16]Y.Zhou,A.Gaur,S.H.Hur,C.Kocabas,M.A.Meitl, M.Shim and J.A.Rogers:Nano Lett.,2004,4(10), 2031. [17]S.H.Hur,M.H.Yoon,A.Gaur,M.Shim,A.Facchetti, T.J.Marks and J.A.Rogers:J.Am.Chem.Soc.,2005, 127,13808. [18]Q.Cao,S.H.Hur,Z.T.Zhu,Y.Sun,C.Wang, M.A.Meitl,M.Shim and J.A.Rogers:Adv.Mater., 2006,18,304. [19]E.Artukovic,M.Kaempgen,D.S.Hecht,S.Roth and G.Gruner:Nano Lett.,2005,5(4),757. [20]K.Bradley,J.C.P.Gabriel and G.Gruner:Nano Lett., 2003,3(10),1353. [21]D.R.Hines,S.Mezhenny,M.Breban,E.D.Williams, V.W.Ballarotto,G.Esen,A.Southard and M.S.Fuhrer: Appl.Phys.Lett.,2005,86,163101. [22]R.Seidel,A.P.Graham,E.Unger,G.S.Duesberg, M.Liebau,W.Steinhoegl,F.Kreupl and W.Hoenlein: Nano Lett.,2004,4(5),831. [23]S.H.Hur,C.Kocabas,A.Gaur,O.O.Park,M.Shim and J.A.Rogers:J.Appl.Phys.,2005,98,114302. [24]Q.Cao,M.G.Xia,M.Shim and J.A.Rogers:Adv. Funct.Mater.,2006,16,2355. [25]S.J.Kang,C.Kocabas,T.Ozel,M.Shim,N.Pimparkar, M.A.Alam,S.V.Rotkin and J.A.Rogers:Nature Nan- otechnol.,2007,2,230. [26]K.Jensen,J.Weldon,H.Garcia and A.Zettl:Nano Lett.,2007,7(11),3508. [27]C.Rutherglen and P.Burke:Nano Lett.,2007,7(11), 3296. [28]T.Durkop,S.A.Getty,E.Cobas and M.S.Fuhrer:Nano Lett.,2004,4,35. [29]M.A.Meitl,Y.Zhou,A.Gaur,S.Jeon,M.L.Usrey, M.S.Strano and J.A.Rogers:Nano Lett.,2004,4(9), 1643. [30]J.U.Park,M.A.Meitl,S.H.Hur,M.L.Usrey, M.S.Strano,P.J.A.Kenis and J.A.Rogers:Angew. Chem.Int.Edit.,2006,45,581. [31]J.U.Park,M.Hardy,S.J.Kang,K.Barton, K.Adair,D.K.Mukhopadhyay,C.Y.Lee,M.S.Strano, A.G.Alleyne,J.G.Georgiadis,P.M.Ferreira and J.A.Rogers:Nat.Mater.,2007,6,782. [32]M.S.Dresselhaus,G.Dresselhaus and P.C.Eklund:Sci- ence of Fullerenes and Carbon Nanotubes,Academic Press,San Diego,1996. [33]A.Thess,R.Lee,P.Nikolaev,H.Dai,P.Petit, J.Robert,C.Xu,Y.H.Lee,S.G.Kim,A.G.Rinzler, D.T.Colbert,G.E.Scuseria,D.Tom'anek,J.E.Fischer and R.E.Smalley:Science,1996,273,483. [34]M.J.Bronikowski,P.A.Willis,D.T.Colbert,K.A.Smith and R.E.Smalley:J.Vac.Sci.Technol.A,2001,19, 1800. [35]M.S.Arnold,A.A.Green,J.F.Hulvat,S.I.Stupp and M.C.Hersam:Nature Nanotechnol.,2006,1,60. [36]Y.Maeda,S.I.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 and R.Saito:J.Am.Chem.Soc.,2005, 127,10287. [37]S.Campidelli,M.Meneghetti and M.Prato:Small, 2007,3(10),1672. [38]H.Dai,A.G.Rinzler,P.Nikolaev,A.Thess,D.T.Colbert and R.E.Smalley:Chem.Phys.Lett.,1996,260,471. [39]S.Huang,B.Maynor,X.Cai and J.Liu:Adv.Mater., 2003,15(19),1651. [40]D.Bozovic,M.Bockrath,J.H.Hafner,C.M.Lieber, H.Park and M.Tinkham:Phys.Rev.B,2003,67, 033407. [41]Y.Isono,T.Namazu abd T.Tanaka:The 14th IEEE In- ternational Conference on MEMS,Interlaken,Switzer- land,2001,135. [42l S.H.Hur,O.O.Park,J.A.Rogers:Appl.Phys.Lett., 2005,86,243502. [43]C.Kocabas,S.H.Hur,A.Gaur,M.A.Meitl,M.Shim and J.A.Rogers:Small,2005,1(11),1110. [44]C.Kocabas,M.Shim and J.A.Rogers:J.Am.Chem. Soc.,2006,128,4540. [45]S.Han,X.Liu and C.Zhou:J.Am.Chem.Soc.,2005, 127(1),6. [46]Y.Y.Huang,W.Zhou,K.J.Hsia,E.Menard,J.U.Park, J.A.Rogers and A.G.Alleyne:Langmuir,2005,21, 8058. [47]K.J.Hsia,Y.Huang,E.Menard,J.U.Park,W.Zhou, J.Rogers and J.M.Fulton:Appl.Phys.Lett.,2005, 86,154106. [48]J.Guo,S.Goasguen,M.Lundstrom and S.Datta:Appl. Phys.Lett.,2002,81(8),1486. [49]E.S.Snow,P.M.Campbell,M.G.Ancona and J.P.Novak:Appl.Phys.Lett.,2005,86,033105. [50]Y.Sun and J.A.Rogers:Adv.Mater.,2007,19,1897. [51]J.Kong,M.G.Chapline and H.Dai:Adv.Mater.,2001, 13,1384. [52]S.Mubeen,T.Zhang,B.Yoo,M.A.Deshusses and N.V.Myung:J.Phys.Chem.C,2007,111(17),6321. [53]J.Sippel-Oakley,H.T.Wang,B.S.Kang,Z.Wu,F.Ren, A.G.Rinzler and S.J.Pearton:Nanotechnology,2005, 16,2218. [54]I.Sayago,E.Terrado,E.Lafuente,M.C.Horrillo, W.K.Maser,A.M.Benito,R.Navarro,E.P.Urrio- labeitia,M.T.Martinez and J.Gutierrez:Synth.Met., 2005,148,15. [55]Y.Hayakawa,Y.Suda,T.Hashizume,H.Sugawara and Y.Sakai:Jpn.J.Appl.Phys.,2007,46(15),L362. [56]Y.Sun and H.H.Wang:Adv.Mater.,2007,19,2818. [57]L.Valentini,I.Armentano and J.M.Kenny:Appl. Phys.Lett.,2003,82(6),961. [58]W.Wongwiriyapan,S.Honda,H.Konishi,T.Mizuta, T.Ohmori,Y.Kishimoto,T.Ito,T.Maekawa, K.Suzuki,H.Ishikawa,T.Murakami,K.Kisoda, H.Harima,K.Oura and M.Katayama:Nanotechnol- ogy,2006,17,4424. [59]P.Qi,O.Vermesh,M.Grecu,A.Javey,Q.Wang,H.Dai, S.Peng and K.J.Cho:Nano Lett.,2003,3(3),347. [60]O.Kuzmych,B.L.Allen and A.Star:Nanotechnology, 2007,18,375502. [61]E.Bekyarova,M.Davis,T.Burch,M.E.Itkis,B.Zhao, S.Sunshine and R.C.Haddon:J.Phys.Chem.B, 2004,108,19717. [62]T.Zhang,M.B.Nix,B.Y.Yoo,M.A.Deshusses and N.V.Myung:Electroanalysis,2006,18(12),1153. [63]A.Star,T.R.Han,J V.oshi,J.C.P.Gabriel and G.Gruner:Adv.Mater.,2004,16(22),2049. [64]A.Star,V.Joshi,S.Skarupo,D.Thomas and J.C.P.Gabrieh J.Phys.Chem.B,2006,110,21014. [65]C.Staii,M.Chen,A.Gelperin and A.T.Johnson Jr: Nano Lett.,2005,5(9),1774. [66]T.Someya,J.Small,P.Kim,C.Nuckolls and J.T.Yardley:Nano Lett.,2003,3(7),877. [67]K.Parikh,K.Cattanach,R.Rao,D.S.Suh,A.Wu and S.K.Manohar:Sensor.Actuat.B-Chem.,2006,113, 55. [68]J.P.Novak,E.S.Snow,E.J.Houser,D.Park, J.L.Stepnowski and R.A.McGill:Appl.Phys.Lett., 2003,83(19),4026. [69]E.S.Snow,F.K.Perkins,E.J.Houser,S.C.Badescu and T.L.Reinecke:Science,2005,307,1942. [70]K.Cattanach,R.D.Kulkarni,M.Kozlov and S.K.Manohar:Nanotechnology,2006,17,4123. [71]H.M.So,K.Won,Y.H.Kim,B.K.Kim,B.H.Ryu, P.S.Na,H.Kim and J.O.Lee:J.Am.Chem.Soc., 2005,127(34),11906. [72]S.N.Kim,J.F.Rusling and F.Papadimitrakopoulos: Adv.Mater.,2007,19,3214. [73]H.R.Byon and H.C.Choi:J.Am.Chem.Soc.,2006, 128,2188. [74]E.L.Gui,L.J.Li,K.Zhang,Y.Xu,X.Dong,X.Ho, P.S.Lee,J.Kasim,Z.X.Shen,J.A.Rogers and S.G.Mhaisalkar:J.Am.Chem.Soc.,2007,129, 14427. [75]W.Zhu arid E.Kaxiras:Nano Lett.,2006,6(7),1415. [76]Y.Sun and H.H.Wang:Appl.Phys.Lett.,2007,90, 213107. [77]W.Kim,A.Javey,O.Vermesh,Q.Wang,Y.Li and H.Dai:Nano Lett.,2003,3(2),193. |
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