Electrochemical Storage of Hydrogen in Carbon Nanotubes

机译：碳纳米管中氢的电化学存储

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The electrochemical hydrogenation property of carbon nanotubes (CNTs) was investigated. The CNTs were prepared by different methods, including chemical vapor deposition (CVD) using different catalysts (Co, Ni, etc.) or laser ablation (LA) using Co or Ni catalyst. All of the CNTs contained various amounts of residual metal catalyst. A high discharge capacity of 197 mAh/g of the CVD-Co electrode was obtained, followed by CVD-Ni (48 mAh/g) and LA (36 mAh/g) at room temperature. If the CNTs were purified by HNO_3 and similar test was conducted, it was found that the discharge capacities were dramatically reduced. When the purified CNTs were deposited with a controlled amount of metal on the surface, the discharge capacity was improved significantly. It is postulated that the electrochemical hydrogen storage by carbon nanotubes might be influenced by the catalytic effect.

机译：研究了碳纳米管（CNTs）的电化学加氢性能。 CNT是通过不同的方法制备的，包括使用不同的催化剂（Co，Ni等）的化学气相沉积（CVD）或使用Co或Ni催化剂的激光烧蚀（LA）。所有的CNT都包含各种量的残留金属催化剂。在室温下，CVD-Co电极的放电容量很高，为197 mAh / g，然后是CVD-Ni（48 mAh / g）和LA（36 mAh / g）。如果通过HNO_3纯化CNT并进行类似的测试，发现放电容量显着降低。当在表面上以受控量的金属沉积纯化的CNT时，放电容量显着提高。据推测，碳纳米管的电化学储氢可能受到催化作用的影响。

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来源
《NSTI(Nano Science and Technology Institute) Nanotechnology Conference and Trade Show(Nanotech 2004)》|2004年|P.252-255|共4页
会议地点 Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US)
作者
S.-R. Chung; K.-W. Wang; T.-P. Perng;
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作者单位

Department of Materials Science and Engineering National Tsing Hua University, Hsinchu, Taiwan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类半导体技术;
关键词
electrochemical properties; carbon nanotube; discharge capacity; catalytic effect;

机译：电化学性能碳纳米管放电容量催化作用;

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1. The electrochemical hydrogen storage of multi-walled carbon nanotubes synthesized by chemical vapor deposition using a lanthanum nickel hydrogen storage alloy as catalyst [J] . Zhang HY, Fu XJ, Chen YM, Physica, B. Condensed Matter . 2004,第1a4期

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2. Electrochemical behaviour of single walled carbon nanotubes - Hydrogen storage and hydrogen evolution reaction [J] . P.S. Fernandez, E.B. Castro, S.G. Real, International journal of hydrogen energy . 2009,第19期

机译：单壁碳纳米管的电化学行为-储氢和析氢反应。
3. Ball-milling preparation of one-dimensional Co-carbon nanotube and Co-carbon nanofiber core/shell nanocomposites with high electrochemical hydrogen storage ability [J] . Cheng Chang, Peng Gao, Di Bao, Journal of power sources . 2014,第juna1期

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4. Synthesis of Carbon Nanotubes and Carbon Spheres and study of their hydrogen storage property by Electrochemical method [C] . Krishnamurthy G, Namitha R, Sarika Agarwal International Conference on Advancess in Manufacturing and Materials Engineering . 2014

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5. Growth of carbon nanotubes on nanotubular titanium dioxide template and electrochemical hydrogen storage thereof. [D] . Pillai, Pradeep. 2006

机译：碳纳米管在纳米管二氧化钛模板上的生长及其电化学储氢。
6. Electrochemical behavior of dye-linked L-proline dehydrogenase on glassy carbon electrodes modified by multi-walled carbon nanotubes [O] . Haitao Zheng, Leyi Lin, Yosuke Okezaki, 2010

机译：染料连接的L-脯氨酸脱氢酶在多壁碳纳米管修饰的玻碳电极上的电化学行为
7. Synthesis of Carbon Nanotubes and Carbon Spheres and Study of their Hydrogen Storage Property by Electrochemical Method [O] . Krishnamurthy G., Namitha R., Agarwal Sarika 2014

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Electrochemical Storage of Hydrogen in Carbon Nanotubes

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