Gas analysis of the CVD process for high yield growth of carbon nanotubes over metal-supported catalysts

Hiroki Ago; Naoyasu Uehara; Naoki Yoshihara

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Gas analysis of the CVD process for high yield growth of carbon nanotubes over metal-supported catalysts

机译：CVD工艺的气体分析，用于在金属负载的催化剂上高产率地生长碳纳米管

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Changes in the gas composition during the methane chemical vapor deposition growth of single- and double-walled carbon nanotubes over metal-supported MgO catalysts were investigated in an attempt to increase the nanotube yield. Monitoring the gas composition by gas chromatography as a function of the reaction time provides information on the activity and lifetime of the catalyst. The degree of methane decomposition, i.e., the C-H bond dissociation, was closely related to the nanotube yield, and the Fe-Mo binary catalyst exhibited a high activity. The effects of water vapor on the catalytic nanotube growth were also studied by introducing water vapor in the inlet gas. An appropriate amount of water prolonged the lifetime of the catalyst and increased the nanotube yield by 35 percent.

机译：研究了在金属负载的MgO催化剂上单壁和双壁碳纳米管在甲烷化学气相沉积生长过程中气体成分的变化，以试图提高纳米管的收率。通过气相色谱监测作为反应时间的函数的气体组成提供了关于催化剂的活性和寿命的信息。甲烷的分解程度，即C-H键解离，与纳米管产率密切相关，并且Fe-Mo二元催化剂表现出高活性。还通过将水蒸气引入进气中来研究水蒸气对纳米管催化生长的影响。适量的水可以延长催化剂的使用寿命，并使纳米管的收率提高35％。

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《Carbon: An International Journal Sponsored by the American Carbon Society》 |2006年第14期|共7页
作者
Hiroki Ago; Naoyasu Uehara; Naoki Yoshihara;
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正文语种 eng
中图分类第Ⅳ族非金属元素及其无机化合物;
关键词
Carbon nanotubes; Chemical vapor deposition; Catalyst; Chromatography; Carbon yield;

机译：碳纳米管;化学气相沉积;催化剂;色谱;碳收率;

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1. Gas analysis of the CVD process for high yield growth of carbon nanotubes over metal-supported catalysts [J] . Hiroki Ago, Naoyasu Uehara, Naoki Yoshihara Carbon: An International Journal Sponsored by the American Carbon Society . 2006,第14期

机译：CVD工艺的气体分析，用于在金属负载的催化剂上高产率地生长碳纳米管
2. Hot filament CVD of Fe-Cr catalyst for thermal CVD carbon nanotube growth from liquid petroleum gas [J] . M. Akbarzadeh Pasha, A. Shafiekhani, M.A. Vesaghi Applied Surface Science . 2009,第5期

机译：Fe-Cr催化剂的热丝CVD用于从液态石油气中热CVD生长碳纳米管
3. Fast rate growth of organized using carbon nanotubes by CVD using iron pentacarbonyl as gas-phase catalyst [J] . Kuo DH, Su MY, Chen WR Chemical vapor deposition: CVD . 2006,第6期

机译：五羰基铁为气相催化剂的CVD法快速生长碳纳米管
4. Proper Combination of Catalyst Materials and Ethanol for High Yield in CVD Growth of Carbon Nanotubes [C] . Fumihiko Maeda, Yoshihiro Kobayashi MRS spring meeting symposium . 2008

机译：适当组合催化剂材料和乙醇可在碳纳米管的CVD生长中获得高产率
5. Experimental study of microwave assisted CVD growth of carbon nanotubes on silicon wafer using cobalt as a catalyst. [D] . Ramakrishnan, Madhan Prasath. 2005

机译：以钴为催化剂的微波辅助在硅片上CVD生长碳纳米管的实验研究。
6. Catalytic CVD Synthesis of Carbon Nanotubes: Towards High Yield and Low Temperature Growth [O] . Arnaud Magrez, Jin Won Seo, Rita Smajda, 2010

机译：碳纳米管的催化CVD合成：朝着高产率和低温生长
7. Single-walled carbon nanotube growth at low temperature by alcohol gas source method using Co catalyst: enhancement effects of Al₂O₃ buffer layer on carbon nanotube yield [O] . Takuya Okada, Takahiro Saida, Shigeya Naritsuka, 2019

机译：使用CO催化剂的醇气源法在低温下进行单壁碳纳米管生长：Al _{2 O _{3 缓冲层对碳纳米管收率的增强效应}}

Gas analysis of the CVD process for high yield growth of carbon nanotubes over metal-supported catalysts

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