Cu-Ni composition gradient for the catalytic synthesis of vertically aligned carbon nanofibers

被引:39
作者
Klein, KL
Melechko, AV
Rack, PD
Fowlkes, JD
Meyer, HM
Simpson, ML
机构
[1] Oak Ridge Natl Lab, Mol Scale Engn & Nanoscale Technol Res Grp, Oak Ridge, TN 37831 USA
[2] Oak Ridge Natl Lab, Microscopy Microanal & Microstruct Grp, Div Met & Ceram, Oak Ridge, TN 37831 USA
来源
CARBON | 2005年 / 43卷 / 09期
关键词
carbon nano-fibers; chemical vapor deposition; plasma deposition; electron microscopy; catalytic properties;
D O I
10.1016/j.carbon.2005.02.027
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
The influence of catalyst alloy composition on the growth of vertically aligned carbon nanofibers was studied using Cu-Ni thin films. Metals were co-sputtered onto a substrate to form a thin film alloy with a wide compositional gradient, as determined by Auger analysis. Carbon nanofibers were then grown from the gradient catalyst film by plasma enhanced chemical vapor deposition. The alloy composition produced substantial differences in the resulting nanofibers, which varied from branched structures at 81%Ni-19%Cu to high aspect ratio nanocones at 80%Cu-20%Ni. Electron microscopy and spectroscopy techniques also revealed segregation of the initial alloy catalyst particles at certain concentrations. (C) 2005 Elsevier Ltd. All rights reserved.
引用
收藏
页码:1857 / 1863
页数:7
相关论文
共 32 条
[1]   Coprecipitated Ni-alumina and Ni-Cu-alumina catalysts of methane decomposition and carbon deposition .2. Evolution of the catalysts in reaction [J].
Avdeeva, LB ;
Goncharova, OV ;
Kochubey, DI ;
Zaikovskii, VI ;
Plyasova, LM ;
Novgorodov, BN ;
Shaikhutdinov, SK .
APPLIED CATALYSIS A-GENERAL, 1996, 141 (1-2) :117-129
[2]   CARBON DEPOSITION AND METHANE STEAM REFORMING ON SILICA-SUPPORTED NI-CU CATALYSTS [J].
BERNARDO, CA ;
ALSTRUP, I ;
ROSTRUPNIELSEN, JR .
JOURNAL OF CATALYSIS, 1985, 96 (02) :517-534
[3]   Combinatorial chips for optimizing the growth and integration of carbon nanofibre based devices [J].
Cassell, AM ;
Ye, Q ;
Cruden, BA ;
Li, J ;
Sarrazin, PC ;
Ng, HT ;
Han, J ;
Meyyappan, M .
NANOTECHNOLOGY, 2004, 15 (01) :9-15
[4]   Influence of copper on the structural characteristics of carbon nanofibers produced from the cobalt-catalyzed decomposition of ethylene [J].
Chambers, A ;
Rodriguez, NM ;
Baker, RTK .
JOURNAL OF MATERIALS RESEARCH, 1996, 11 (02) :430-438
[5]   Growth process conditions of vertically aligned carbon nanotubes using plasma enhanced chemical vapor deposition [J].
Chhowalla, M ;
Teo, KBK ;
Ducati, C ;
Rupesinghe, NL ;
Amaratunga, GAJ ;
Ferrari, AC ;
Roy, D ;
Robertson, J ;
Milne, WI .
JOURNAL OF APPLIED PHYSICS, 2001, 90 (10) :5308-5317
[6]   Effect of surface morphology of Ni thin film on the growth of aligned carbon nanotubes by microwave plasma-enhanced chemical vapor deposition [J].
Choi, YC ;
Shin, YM ;
Lim, SC ;
Bae, DJ ;
Lee, YH ;
Lee, BS ;
Chung, DC .
JOURNAL OF APPLIED PHYSICS, 2000, 88 (08) :4898-4903
[7]   Synthetic strategies for Y-junction carbon nanotubes [J].
Deepak, FL ;
Govindaraj, A ;
Rao, CNR .
CHEMICAL PHYSICS LETTERS, 2001, 345 (1-2) :5-10
[8]   Branching carbon nanotubes deposited in HFCVD system [J].
Gan, B ;
Ahn, J ;
Zhang, Q ;
Yoon, SF ;
Rusli ;
Huang, QF ;
Yang, H ;
Yu, MB ;
Li, WZ .
DIAMOND AND RELATED MATERIALS, 2000, 9 (3-6) :897-900
[9]   Vertically aligned carbon nanofiber-based field emission electron sources with an integrated focusing electrode [J].
Guillorn, MA ;
Yang, X ;
Melechko, AV ;
Hensley, DK ;
Hale, MD ;
Merkulov, VI ;
Simpson, ML ;
Baylor, LR ;
Gardner, WL ;
Lowndes, DH .
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 2004, 22 (01) :35-39
[10]   Individually addressable vertically aligned carbon nanofiber-based electrochemical probes [J].
Guillorn, MA ;
McKnight, TE ;
Melechko, A ;
Merkulov, VI ;
Britt, PF ;
Austin, DW ;
Lowndes, DH ;
Simpson, ML .
JOURNAL OF APPLIED PHYSICS, 2002, 91 (06) :3824-3828
1234