Low-Temperature Single-Walled Carbon Nanotube Growth from Pt Catalyst Using Alcohol Gas Source Method in High Vacuum

Hiroki Kondo; Naoya Fukuoka; Ranajit Ghosh; Shigeya Naritsuka; Takahiro Maruyama; Sumio lijima

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Low-Temperature Single-Walled Carbon Nanotube Growth from Pt Catalyst Using Alcohol Gas Source Method in High Vacuum

机译：酒精气源法在高真空下由铂催化剂低温生长单壁碳纳米管

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The growth of single-walled carbon nanotubes (SWCNTs) was carried out on SiO_2/Si substrates with Pt catalysts at 400, 450, and 700℃ using an alcohol gas source method in a high vacuum, and the grown SWCNTs were characterized by Raman spectroscopy. By optimizing the ethanol pressure, we could grow SWCNTs even at 400 and 450 ℃. By reducing the growth temperature, both the diameter and diameter distribution of the SWCNTs were markedly decreased, and the diameters for most of the SNWTs grown at 400 ℃ were estimated to be below 1 nm from the Raman results. Transmission electron microscopy (TEM) observation showed that the reduction in SWCNT diameter was caused by the decrease in catalyst size with decreasing temperature.

机译：在400、450和700℃下，采用醇气源法在高真空下于Pt催化剂在SiO_2 / Si衬底上生长单壁碳纳米管（SWCNTs），并通过拉曼光谱对生长的SWCNTs进行表征。。通过优化乙醇压力，我们甚至可以在400和450℃下生长SWCNT。通过降低生长温度，SWCNT的直径和直径分布都显着减小，从拉曼结果估计，大多数在400℃下生长的SNWT的直径小于1nm。透射电子显微镜（TEM）观察表明，SWCNT直径的减小是由于催化剂尺寸随温度降低而减小的。

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《Japanese journal of applied physics》 |2013年第6issue2期|06GD02.1-06GD02.4|共4页
作者
Hiroki Kondo; Naoya Fukuoka; Ranajit Ghosh; Shigeya Naritsuka; Takahiro Maruyama; Sumio lijima;
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Department of Materials Science and Engineering, Meijo University, Nagoya 468-8502, Japan;

Department of Materials Science and Engineering, Meijo University, Nagoya 468-8502, Japan;

Department of Materials Science and Engineering, Meijo University, Nagoya 468-8502, Japan;

Department of Materials Science and Engineering, Meijo University, Nagoya 468-8502, Japan;

Department of Materials Science and Engineering, Meijo University, Nagoya 468-8502, Japan;

Department of Materials Science and Engineering, Meijo University, Nagoya 468-8502, Japan,AIST, Tsukuba, Ibaraki 305-8565, Japan;

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1. Low-temperature growth of single-walled carbon nanotube using Al2O3/Pd/Al2O3 multilayer catalyst by alcohol gas source method at high vacuum [J] . Kiribayashi Hoshimitsu, Ogawa Seigo, Kozawa Akinari, Japanese journal of applied physics . 2016,第6s1期

机译：Al2O3 / Pd / Al2O3多层催化剂通过醇气源法在高真空下低温生长单壁碳纳米管
2. Low-Temperature Synthesis 6f Single-Walled Carbon Nanotubes in a High Vacuum Using Pt Catalyst in Alcohol Gas Source Method [J] . Naoya Fukuoka, Yoshihiro Mizutani, Shigeya Naritsuka, Japanese journal of applied physics . 2012,第6Issue2期

机译：醇源法铂催化剂在高真空下低温合成6f单壁碳纳米管
3. Low-Temperature Synthesis of Single-Walled Carbon Nanotubes by Alcohol Gas Source Growth in High Vacuum [J] . T. Maruyama, K. Sato, Y. Mizutani, Journal of nanoscience and nanotechnology . 2010,第6期

机译：酒精气源在高真空下低温合成单壁碳纳米管
4. Growth control of single-walled carbon nanotubes by the alcohol catalytic CVD method: Influence of catalyst reduction temperature on nanotube diameters [C] . Theerapol THURAKITSEREE, Erik EINARSSON, Rong XIANG, 日本伝熱シンポジウム . 2010

机译：醇催化CVD法对单壁碳纳米管的生长控制：催化剂降温温度对纳米管直径的影响
5. Vertically aligned single-walled carbon nanotube growth from iron-molybdenum catalyst; an experiment and modeling approach to why deposition order matters [D] . Pint, Cary 2009

机译：垂直对准的单壁碳纳米管生长来自铁 - 钼催化剂;沉积命令对何的实验和建模方法
6. A Fundamental Limitation of Small Diameter Single-Walled Carbon Nanotube Synthesis—A Scaling Rule of the Carbon Nanotube Yield with Catalyst Volume [O] . Shunsuke Sakurai, Masayasu Inaguma, Don N. Futaba, 2013

机译：小直径单壁碳纳米管合成的基本局限性-碳纳米管产率随催化剂体积的缩放规律
7. Single-Walled Carbon Nanotube Growth from Pt catalysts using Alcohol Gas Source Method: Comparison with Co catalysts [O] . Akinari Kozawa, Hiroki Kondo, Takahiro Saida, 2015

机译：使用醇气源法从Pt催化剂的单壁碳纳米管生长：与CO催化剂的比较

Low-Temperature Single-Walled Carbon Nanotube Growth from Pt Catalyst Using Alcohol Gas Source Method in High Vacuum

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