J Mater Sci Technol ›› 2008, Vol. 24 ›› Issue (04): 447-456.
• Research Articles • Previous Articles Next Articles
Hongwei ZHU and Bingqing WEI
Received:
2008-05-15
Revised:
1900-01-01
Online:
2008-07-28
Published:
2009-10-10
Contact:
Bingqing WEI
[1]S.Iijima:Nature,1991,354,56. [2]R.Saito,G.Dresselhaus and M.S.Dresselhaus:Physi- cal Properties of Carbon Nanotubes,Imperial College Press,London,1998. [3]R.H.Baughman,A.A.Zakhidov and W.A.de Heer:Sci- ence,2002,297,787. [4]S.Iijima and T.Ichihashi:Nature,1993,363,603. [5]D.S.Bethune,C.H.Kiang,M.S.DeVries,G.Gorman, R.Savoy and R.Beyers:Nature,1993,363,605. [6]Z.L.Li,P.Dharap,S.Nagarajaiah,E.V.Barrera and J.D.Kim:Adv.Mater.,2004,16,640. [7]N.P.Armitage,J.C.P.Gabriel and G.Gruner:J.Appl. Phys.,2004,95,3228. [8]E.S.Snow,F.K.Perkins,E.J.Houser,S.C.Badescu and T.L.Reinecke:Science,2005,307,1942. [9]Y.X.Zhou,A.Ganr,S.H.Hur,C.Kocabas,M.A.Meitl, M.Shim and J.A.Rogers:Nano Lett.,2004,4,2031. [10]E.S.Snow,P.M.Campbell,M.C.Ancona and J.P.Novak:Appl.Phys.Lett.,2005,86,3. [11]K.Lee,Z.Wu,Z.Chen,F.Ren,S.J.Pearton and A.G.Rinzler:Nano Lett.,2004,4,4. [12]D.H.Zhang,K.Ryu,X.L.Liu,E.Polikarpov,J.Ly, M.E.Tompson and C.W.Zhou:Nano Lett.,2006,6, 1880. [13]Y.Zhou,L.Hu and G.Gruner:Appl.Phys.Lett., 2006,88,123109. [14]Y.Kim,N.Minami,W.H.Zhu,S.Kazaoui,R.Azumi and M.Matsumoto:Jpn.J.Appl.Phys.,2003,42, 7629. [15]Z.Wu,Z.Chen,X.Du,J.M.Logan,J.Sippel, M.Nikolou,K.Kamaras,J.R.Reynolds,D.B.Tanner, A.F.Hebard and A.G.Rinzler:Science,2004,305, 1273. [16]R.Duggal,F.Hussain and M.Pasquali:Adv.Mater., 2006,18,29. [17]H.W.Zhu,B.Jiang,C.L.Xu and D.H.Wu:J.Phys. Chem.B,2003,107,6514. [18]L.Song,L.Ci,L.Lv,Z.Zhou,X.Yan,D.Liu,H.Yuan, Y.Gao,J.Wang,L.Liu,X.Zhao,Z.Zhang,X.Dou, W.Zhou,G.Wang,C.Wang and S.Xie:Adv.Mater., 2004,16,1529. [19]H.W.Zhu and B.Q.Wei:Chem.Commun.,2007,29, 3042. [20]W.J.Ma,L.Song,R.Yang,T.H.Zhang,Y.C.Zhao, L.F.Sun,Y.Ren,D.F.Liu,L.F.Liu,J.Shen,Z.X.Zhang, Y.J.Xiang,W.Y.Zhou and S.S.Xie:Nano Lett.,2007, 7,2307. [21]K.L.Jiang,Q.Q.Li and S.S.Fan:Nature,2002,419, 801. [22]M.Zhang,K.R.Atkinson and R.H.Banghman:Science, 2004,306,1358. [23]M.Zhang,S.Fang,A.A.Zakhidov,S.B.Lee,A.E.Aliev, C.D.Williams,K.R.Atkinson and R.H.Banghman: Science,2005,309,1215. [24]M.Endo,H.Muramatsu,T.Hayashi,Y.A.Kim, M.Terrones and M.S.Dresselhaus:Nature,2005,433, 476. [25]Y.A.Kim,H.Muramatsu,T.Hayashi,M.Endo, M.Terrones and M.S.Dresselhaus:Chem.Vapor.De- pos.,2006,12,327. [26]J.Q.Wei,H.W.Zhu,Y.H.Li,B.Chen,Y.Jia,K.L.Wang, Z.C.Wang,W.J.Liu,J.B.Luo,M.X.Zheng,D.H.Wu, Y.Q.Zhu and B.Q.Wei:Adv.Mater.,2006,18,1695. [27]Y.L.Li,I.A.Kinloch and A.H.Windle:Science,2004, 304,276. [28]J.E.Fischer,W.Zhou,J.Vavro,M.C.Llaguno, C.Guthy,R.Haggenmueller,M.J.Casavant, D.E.Walters and R.E.Smalley:J.Appl.Phys.,2003, 93,2157. [29]H.Shimoda,L.Fleming,K.Horton and O.Zhou:Phys- ica B,2002,323,135. [30]T.D.Luccio,F.Antolini,P.Aversa,G.Scalia and L.Tapfer:Carbon,2004,42,1119. [31]G.Gruner:J.Mater.Chem.,2006,16,3533. [32]H.Ago,K.Petritsch,M.S.P.Shaffer,A.H.Windle and R.H.Friend:Adv.Mater.,1999,11,1281. [33]A.Du Pasquier,H.E.Unalan,A.Kanwal,S.Miller and M.Chhowalla:Appl.Phys.Lett.,2005,87,203511. [34]K.M.Coakley and M.D.McGehee:Chem.Mater., 2004,16,4533. [35]M.Rowell,M.McGehee,H.J.Prall,G.Dennler, N.S.Sacriciftci,L.HU and G.Gruner:Appl.Phys. Lett.,2006,88,233506. [36]E.Artukovic,M.Kaempgen,D.S.Hecht,S.Roth and G.Gruner:Nano Lett.,2005,5,757. [37]W.R.Small and M.in bet Panhuis:Small,2007,3, 1500. [38]A.M.Fennimore,T.D.Yuzvinsky,W.Q.Han, M.S.Fuhrer,J.Cumings and A.Zettl:Nature,2003, 424,408. [39]V.H.Ebron,Z.W.Yang,D.J.Seyer,M.E.Kozlov, J.Oh,H.Xie,J.Razal,L.J.Hall,J.P.Ferraris, A.G.MacDiarmid and R.H.Baughman:Science,2006, 311,1580. [40]J.M.Bonard,J.P.Salvetat,T.Stockli,L.Forro and A.Chatelain:Appl.Phys.A,1999,69,245. [41]W.Zhu,C.Bower,O.Zhou,G.Kochanski and S.Jin: Appl.Phys.Lett.,1999,75,873. [42]D.S.Chung,S.H.Park,H.W.Lee,J.H.Choi,S.N.Cha, J.W.Kim,J.E.Jang,K.W.Min,S.H.Cho,M.J.Yoon, J.S.Lee,C.K.Lee,J.H.Yoo,J.M.Kim,J.E.Jung, Y.W.Jin,Y.J.Park and J.B.You:Appl.Phys.Lett., 2002,80,4045. [43]Y.C.Kim,K.H.Sohn,Y.M.Cho and E.H.Yoo:Appl. Phys.Lett.,2004,84,5350. [44]Y.I.Song,G.Y.Kim,H.K.Choi,H.J.Jeong,K.K.Kim, C.M.Yang,S.C.Lim,K.H.An,K.T.Jung and Y.H.Lee: Chem.Vapor.Depos.,2006,12,375. [45]A.Kay and M.Gratzel:Sol.Energy Mater.Sol.Cells, 1996,44,99. [46]N.Koprinarov,R.Stefanov,G.Pchelarov,M.Konstanti- nova and I.Stambolova:Synth.Met.,1996,77,47. [47]D.B.Romero,M.Carrard,W.D.Heer and L.Zuppiroli: Adv.Mater.,1996,11,899. [48]K.Suzuki,M.Yamaguchi,M.Kumagai and S.Yanagida: Chem.Lett.,2003,32,28. [49]S.J.Kang,C.Kocabas,T.Ozel,M.Shim,N.Pimparkar, M.A.Alam,S.V.Rotkin and J.A.Rogers:Nat.Nan- otechnol.,2007,2,230. [50]S.J.Kang,C.Kocabas,H.-S.Kim,Q.Cao,M.A.Meitl, D.Y.Khang and J.A.Rogers:Nano Lett.,2007,7, 3343. [51]G.B.Blanchet,C.R.Fincher and F.Gao:Appl.Phys. Lett.,2003,82,1290. [52]G.H.Yu,A.Y.Cao and C.M.Lieber:Nat.Nanotech- nol.,2007,2,372. [53]C.Kim and X.Y.Liu:Int.J.Mod.Phys.B,2006,20, 3727. [54]H.H.Kim and H.J.Kim:J.Korean Phys.Soc.,2007, 50,L361. |
[1] | Xing Zhou, Jingrui Deng, Changqing Fang, Wanqing Lei, Yonghua Song, Zisen Zhang, Zhigang Huang, Yan Li. Additive manufacturing of CNTs/PLA composites and the correlation between microstructure and functional properties [J]. J. Mater. Sci. Technol., 2021, 60(0): 27-34. |
[2] | Xu-Ping Wu, Xue-Mei Luo, Hong-Lei Chen, Ji-Peng Zou, Guang-Ping Zhang. A unified model for determining fracture strain of metal films on flexible substrates [J]. J. Mater. Sci. Technol., 2020, 54(0): 87-94. |
[3] | Xing Zhou, Jian Su, Chenxi Wang, Changqing Fang, Xinyu He, Wanqing Lei, Chaoqun Zhang, Zhigang Huang. Design, preparation and measurement of protein/CNTs hybrids: A concise review [J]. J. Mater. Sci. Technol., 2020, 46(0): 74-87. |
[4] | G.Y. Li, L.F. Cao, J.Y. Zhang, X.G. Li, Y.Q. Wang, K. Wu, G. Liu, J. Sun. An insight into Mg alloying effects on Cu thin films: microstructural evolution and mechanical behavior [J]. J. Mater. Sci. Technol., 2020, 57(0): 101-112. |
[5] | Yue Zhao, Kai Wang, Shuang Yuan, Yonghui Ma, Guojian Li, Qiang Wang. The accelerating nanoscale Kirkendall effect in Co films-native oxide Si (100) system induced by high magnetic fields [J]. J. Mater. Sci. Technol., 2020, 46(0): 127-135. |
[6] | Peng Jia, Ruiwen Huang, Suode Zhang, Engang Wang, Jiahao Yao. Synthesis of Ag-Cr thin film metallic glasses with enhanced sulfide-resistance [J]. J. Mater. Sci. Technol., 2020, 53(0): 32-36. |
[7] | Chuang Liu, Fanxin Zeng, Li Xu, Shuangyu Liu, Jincheng Liu, Xinping Ai, Hanxi Yang, Yuliang Cao. Enhanced cycling stability of antimony anode by downsizing particle and combining carbon nanotube for high-performance sodium-ion batteries [J]. J. Mater. Sci. Technol., 2020, 55(0): 81-88. |
[8] | Feng Zhang, Jia Sun, Yonggang Zheng, Peng-Xiang Hou, Chang Liu, Min Cheng, Xin Li, Hui-Ming Cheng, Zhen Chen. The importance of H2 in the controlled growth of semiconducting single-wall carbon nanotubes [J]. J. Mater. Sci. Technol., 2020, 54(0): 105-111. |
[9] | X.X. Zhang, J.F. Zhang, Z.Y. Liu, W.M. Gan, M. Hofmann, H. Andrä, B.L. Xiao, Z.Y. Ma. Microscopic stresses in carbon nanotube reinforced aluminum matrix composites determined by in-situ neutron diffraction [J]. J. Mater. Sci. Technol., 2020, 54(0): 58-68. |
[10] | Jennifer A. Rudd, Cathren E. Gowenlock, Virginia Gomez, Ewa Kazimierska, Abdullah M. Al-Enizi, Enrico Andreoli, Andrew R. Barron. Solvent-free microwave-assisted synthesis of tenorite nanoparticle-decorated multi-walled carbon nanotubes [J]. J. Mater. Sci. Technol., 2019, 35(6): 1121-1127. |
[11] | Anil K.Battu, Nanthakishore Makeswaran, C.V. Raman. Fabrication, characterization and optimization of high conductivity and high quality nanocrystalline molybdenum thin films [J]. J. Mater. Sci. Technol., 2019, 35(11): 2734-2741. |
[12] | Aihua Jiang, Meng Qi, Jianrong Xiao. Preparation, structure, properties, and application of copper nitride (Cu3N) thin films: A review [J]. J. Mater. Sci. Technol., 2018, 34(9): 1467-1473. |
[13] | Yang Hu, Runjian Jiang, Jingbao Zhang, Chengsong Zhang, Guodong Cui. Synthesis and properties of magnetic multi-walled carbon nanotubes loaded with Fe4N nanoparticles [J]. J. Mater. Sci. Technol., 2018, 34(5): 886-890. |
[14] | Pawel Mierczynski, Sergey V. Dubkov, Sergey V. Bulyarskii, Alexander A. Pavlov, Sergey N. Skorik, Alexey Yu Trifonov, Agnieszka Mierczynska, Eugene P. Kitsyuk, Sergey A. Gavrilov, Tomasz P. Maniecki, Dmitry G. Gromov. Growth of carbon nanotube arrays on various CtxMey alloy films by chemical vapour deposition method [J]. J. Mater. Sci. Technol., 2018, 34(3): 472-480. |
[15] | Zhao Ke, Liu Zhenyu, Xiao Bolyu, Ma Zongyi. Friction stir welding of carbon nanotubes reinforced Al-Cu-Mg alloy composite plates [J]. J. Mater. Sci. Technol., 2017, 33(9): 1004-1008. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||