采用射频等离子体增强化学气相沉积技术,以Ni为催化剂,在Si基底上沉积出定向性良好的碳纳米管.用扫描电镜表征了催化剂颗粒大小和相应的碳纳米管形貌.深入研究了催化剂膜厚对碳纳米管牛长的影响.结果表明:不同度的催化剂薄膜经刻蚀形成的颗粒密度、尺寸、分布等对碳纳米管的合成质量起主要作用.催化剂厚度≤5 nm时,形成的颗粒密度较小而且分布不均,制备的碳纳米管产量低、定向性差.催化剂厚度≥15 nm时,形成的颗粒较大,粘连在一起,生长时大部分被非晶碳包覆,几乎没有碳纳米管的生长.催化剂厚度为10 nm时,形成的颗粒密度大、分布较均,制备的碳纳米管纯度高、定向性好.
参考文献
| [1] | Odom TW.;Huang JL.;Kim P.;Lieber CM. .Atomic structure and electronic properties of single-walled carbonnanotubes[J].Nature,1998(6662):62-64. |
| [2] | Berber S.;Tomanek D.;Kwon YK. .Unusually high thermal conductivity of carbon nanotubes[J].Physical review letters,2000(20):4613-4616. |
| [3] | Dai H;Wong E W;Lieber C M .Probing Electrical Transport in Nano-materials:Conductivity of Individual Carbon Nanotubes[J].Science,1996,272(5261):523-526. |
| [4] | Treacy M M J;Ebbesen T W;Gibson J M .Exceptionally High Young's Modulus Observe for Individual Carbon Nanotubes[J].Nature,1996,381(6584):618-631. |
| [5] | Robert F. Service .Nanotubes Show Image-Display Talent[J].Science,1995(5239):1119-0. |
| [6] | Akinori Oda;Yoshiyuki Suda;Atsushi Okita .Numerical analysis of pressure dependence on carbon nanotube growth in CH_4/H_2 plasmas[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2008(19):6570-6574. |
| [7] | Rümmeli M H;Kramberger C et al.Catalyst Size Dependences for Carbon Nanotube Synthesis[J].Physica Status Solidi,2007,244:3911-3915. |
| [8] | Chhowalla M;Teo K B K;Ducati C et al.Growth Process Conditions of Vertically Aligned Carbon Nanotubes Using Plasa Enhanced Chemical Vapor Deposition[J].Journal of Applied Physics,2001,90:5308-5318. |
| [9] | Ren Z F;Huang Z P;Xu J W et al.Synthesis of Large Arrays of Well Aligned Carbun Nanotubes on Glass[J].Science,1998,282(5391):1105-1107. |
| [10] | 赵勇,程国安,郑瑞廷,刘华平,梁昌林,张萌.高温氨气氛下镍纳米催化剂的结构研究[J].北京师范大学学报(自然科学版),2005(06):586-590. |
| [11] | Liu JF.;Feng JY.;Chen HB. .Enhanced thermal stability of NiSi films on Si(111) substrates by a thin Pt interlayer[J].Journal of Crystal Growth,2000(4):488-493. |
| [12] | Cheol Jin Lee;Dae Woon Kim;Tae Jae Lee;Young Chul Choi;Young Soo Park;Young Hee Lee;Won bong Choi;Nae Sung Lee;Gyeong-Su Park;Jong Min Kim .Synthesis of aligned carbon nanotubes using thermal chemical vapor deposition[J].Chemical Physics Letters,1999(5/6):461-468. |
| [13] | Qin LC.;Krauss AR.;Gruen DM.;Zhou D. .Growing carbon nanotubes by microwave plasma-enhanced chemical vapor deposition[J].Applied physics letters,1998(26):3437-3439. |
| [14] | Kanzow H;Ding A .Formation Mechanism of Signal-wall Nanotubes on Liquid-metal Particle[J].Physical Review B,1999,60(15):1180-1186. |
| [15] | Baker R T .Catalytic Growth of Carbon Filaments[J].CARBO,1989,27:315-323. |
| [16] | Jens R R N;Sehested J;Helveg S .Mechanisms for Catalytic Carbon Nanofibers Growth Studied by ab Initio Density Functional Theory Calculations[J].Physical Review B,2006,73:115419-115431. |
| [17] | De Chen;Kjersti o.Christensen;Ester Ochoa-Fernandez;Zhixin Yu;Bard Totdal;Nieves latorre;Antonio Monzon;Anders Holmen .Synthesis of carbon nanofibers:effects of Ni crystal size during methane decomposition[J].Journal of Catalysis,2005(1):82-96. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%