Electrochemical Sorption of Hydrogen in Single-Wall Carbon Nanotubes Encapsulated in Palladium

L. N. Solodkova; B. F. Lyakhov; A. G. Lipson

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Electrochemical Sorption of Hydrogen in Single-Wall Carbon Nanotubes Encapsulated in Palladium

机译：钯中封装的单壁碳纳米管中氢的电化学吸附

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The distribution of hydrogen in the palladium matrix and single-wall carbon nanotubes (SWCNs) in Pd-SWCN nanocomposite upon electrochemical hydrogenation is quantitatively studied in situ using vol-tammetry and chronoammetry. The high mobility of hydrogen in nanotubes is discovered and reflected in the low H-SWCN bond energy, which equals 0.073 ± 0.05 eV/H-atom and is close to the hydrogen activation energy (ε_H = 0.072-0.08 eV/H-atom) obtained using vacuum thermal desorption [7]. The presence of SWCN is shown to increase the hydrogen capacity of the Pd-SWCN composite compared to individual palladium by nearly 25%. The hydrogen storage capacity of nanotubes (C_H) in Pd-SWCN composite increases with an increase in the Pd-to-SWCN volume ratio (V(Pd)/V(SWCN)). C_H reaches the maximum limiting value of 12 wt % at V(Pd)/V(SWCN) > 12.

机译：在电化学氢化下，PD-SWCN纳米复合材料中的钯基质和单壁碳纳米管（SWCNS）在电化学氢化时分布在电化学氢中的分布是原位的，使用Vol-Tammetry和时分进行定量地研究。在低H-SWCN键合能中发现并反映了纳米管中的氢气的高迁移率，其等于0.073±0.05eV / H-原子，并且接近氢激活能量（ε_h= 0.072-0.08eV / H-Atom）使用真空热解吸获得[7]。显示SWCN的存在，与单个钯相比，将PD-SWCN复合材料的氢容量增加近25％。 PD-SWCN复合材料中纳米管（C_H）的储氢容量随着PD-SWCN体积比（V（PD）/ V（SWCN））的增加而增加。 C_H在V（Pd）/ V（SWCN）> 12处达到12wt％的最大限制值。

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《Protection of Metals and Physical Chemistry of Surfaces》 |2010年第5期|共4页
作者
L. N. Solodkova; B. F. Lyakhov; A. G. Lipson;
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Institute of Physical Chemistry Russian Academy of Sciences Leninskii pr. 31 Moscow 119991 Russia;

Institute of Physical Chemistry Russian Academy of Sciences Leninskii pr. 31 Moscow 119991 Russia;

Institute of Physical Chemistry Russian Academy of Sciences Leninskii pr. 31 Moscow 119991 Russia;

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正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
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1. Electrochemical Sorption of Hydrogen in Single-Wall Carbon Nanotubes Encapsulated in Palladium [J] . L. N. Solodkova, B. F. Lyakhov, A. G. Lipson Protection of Metals and Physical Chemistry of Surfaces . 2010,第5期

机译：钯中封装的单壁碳纳米管中氢的电化学吸附
2. Hydrogen sorption by the bundles of single-wall carbon nanotubes, irradiated in various gas media [J] . A. V. Dolbin, V. B. Eselson, V. G. Gavrilko, Low temperature physics: Simultaneous Russian - English publication . 2013,第7期

机译：在各种气体介质中辐照的单壁碳纳米管束对氢的吸附
3. Hydrogen sorption properties of arc generated single-wall carbon nanotubes [J] . B. P. Tarasov, J. P. Maehlen, M. V. Lototsky Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2003,第0期

机译：电弧产生的单壁碳纳米管的氢吸附特性
4. Carbon Nanotube-Based Hydrogen Gas Sensor Electrochemically Functionalized with Palladium [C] . Suehiro Junya, Yamane Shinji, Imasaka Kiminobu IEEE Sensors . 2007

机译：基于碳纳米管的氢气传感器用钯电化学官能化
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. Sensitive electrochemical immunosensor for matrix metalloproteinase-3 based on single-wall carbon nanotubes [O] . Bernard S. Munge, Jacqueline Fisher, Lines N. Millord, -1

机译：基于单壁碳纳米管为基质金属蛋白酶-3敏感电化学免疫
7. Preparation of palladium loaded carbon nanotubes and activated carbons for hydrogen sorption [O] . Ansón Casaos Alejandro, Lafuente Esperanza, Urriolabeitia Esteban P., 2007

机译：载钯碳纳米管和活性炭吸附氢的制备
8. Comparison of Single-Wall Carbon Nanotube Electrochemical Capacitor Electrode Fabrication Methods [R] . Ervin, M H, Miller, B S, Hanrahan, B, 2012

机译：单壁碳纳米管电化学电容器电极制备方法的比较

Electrochemical Sorption of Hydrogen in Single-Wall Carbon Nanotubes Encapsulated in Palladium

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