采用化学气相沉积法,选用不同基底和表面涂层合成了碳纳米管垂直阵列薄膜、管束和条带三种碳纳米管宏观结构,并用扫描电镜(SEM)和透射电镜(TEM)进行了表征。结果表明:在石英涂层上合成的定向碳纳米管薄膜厚度达毫米级;在表面有Al2O3涂层的不锈钢基底上可合成碳纳米管垂直阵列薄膜和不同尺寸宏观管束结构;在表面有SiO2涂层的不同基底上实现了一种宏观条带的规模制备,并在镍基底上定向生长出条带。结合实验结果探讨了在不同基底上碳纳米管宏观结构的形成机制。
Macroscopic carbon nanotube(CNT) arrays,bundles and ribbons were synthesized by chemical vapor deposition on different substrates with coating,and were characterized by scanning electron microscopy(SEM) and transmission electron microscopy(TEM) examinations.The results show that the well-aligned arrays were synthesized on the quartz glass and the length reaches millimeter range;CNTs macroscopic films or bundles with different diameter were prepared by self-organizing on the stainless steel with AI2O3 coating;Macroscopic CNT ribbons were synthesized on different substrates with SiO2 coating, and aligned ribbons were prepared on nickel substrate.The formation mechanism of macroscopic structures was discussed.
参考文献
| [1] | S.Iijima, Helical microtubules of graphitic carbon, Nature, 354, 56(1991). |
| [2] | R.H.Baughman, A.A.Zakhidov, W.A.D.Heer, Carbon nanotubes-the route toward applications, Science, 297, 787(2002). |
| [3] | L.M.Ericson, H.Fan, H.Q.Peng, Macroscopic, Neat, Single-Walled Carbon Nanotube Fibers, Science, 305, 1447(2004). |
| [4] | Y.L.Li, X.H.Zhong, A.H.Windle, Structural changes of carbon nanotubes in their macroscopic films and fibers by electric sparking processing, Carbon, 46(13), 1751(2008). |
| [5] | J.Amadoua, D.Begin, P.Nguyena, J.P.Tessonniera, T.Dintzera, E.Vanhaeckea, M.J.Ledouxa, C.Pham-Huua, Synthesis of a carbon nanotube monolith with controlled macroscopic shape, Carbon, 44(12), 2587(2006). |
| [6] | H.Chen, A.Roy, J.B.Baek, L.Zhu, J.Qu, L.M.Dai, Controlled growth and modification of vertically-aligned carbon nanotubes for multifunctional applications, Materials Science and Engineering: R, 70(3-6), 63(2010). |
| [7] | H.W.Zhu, C.L.Xu, D.H.Wu, Direct synthesis of long single-walled carbon nanotube stands, Science, 296, 884(2002). |
| [8] | K.Hata, D.N.Futaba, K.Mizuno, T.Namai, M.Yumura, S.Iijimal, Water-assisted highly efficient synthesis of impurity-free single-walled carbon nanotubes, Science, 306, 1362(2004). |
| [9] | X.F.Zhang, A.Y.Cao, B.Q.Wei, Rapid growth of wellaligned carbon nanotube arrays, Chem. Phys. Lett., 362, 285(2002). |
| [10] | B.Vigolo, A.Penicaud, C.Coulon, C.Sauder, R.Pailler, C.Journet, Macroscopic fibers and ribbons of oriented carbon nanotubes, Science, 290, 1331(2000). |
| [11] | M.L.Terranova, S.Orlanducci, E.Fazi, V.Sessa, S.Piccirillo, M.Rossi, D.Manno, A.Serra, Organization of single-walled nanotubes into macro-sized rectangularly shaped ribbons, Chem. Phys. Lett., 381, 86(2003). |
| [12] | Y.L.Li, I.A.Kinloch, A.H.Windle,Direct spinning of carbon nanotube fibers from chemical vapor deposition synthesis, Science, 304, 276(2004). |
| [13] | C.Y.Li, H.W.Zhu, K.Suenaga, J.Q.Wei, K.L.Wang, D.H.Wu, Diameter dependent growth mode of carbon nanotubes on nanoporous SiO2 substrates, Materials Letters, 63(15), 1366(2009). |
| [14] | T.D.Arcos, Z.M.Wu, P.Oelhafen, Is aluminum a suitable buffer layer for carbon nanotube growth Chem. Phys. Lett., 380, 419(2003). |
| [15] | Z.Wang, D.Z.Wang, L.J.Ji, J.J.Wu, R.Wang, J.Liang, Direct synthesis of macroscopic multi-walled carbon nanotube ribbons, Chemical Vapor Deposition, 12, 417(2006). |
| [16] | 张先锋, 曹安源, 孙群慧, 徐才录, 吴德海. 定向碳纳米管阵列在石英玻璃基底上的模板化生长研究, 无机材料学报, 18(3), 613(2003). |
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