Catalytic trends of nitrogen doped carbon nanotubes for oxygen reduction reaction

Gislason Petur Mar; Skulason Egill

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Catalytic trends of nitrogen doped carbon nanotubes for oxygen reduction reaction

机译：催化氮掺杂碳的趋势碳纳米管对氧还原反应

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Replacing the state-of-the-art fuel cell catalyst platinum for a cheaper and abundant alternative would make the hydrogen economy viable. Both nitrogen-doped graphene and nitrogen-doped carbon nanotubes (N-CNT) have been shown to be capable of acting as a metal-free catalyst for the oxygen reduction reaction (ORR). Until now, most of the research has been focused on the nitrogen doping and less on the structure of the nanotubes. Here, density functional theory calculations are used to calculate trends in ORR catalytic activity of graphitic-N-doped CNTs of different sizes and chirality of selected tubes between (4,0) and (20,10). This includes 13 armchair tubes, 17 zig-zag tubes and 42 chiral tubes, or 72 N-CNTs in total. 22 tubes are predicted to have a lower overpotential than the platinum catalyst and 46 tubes have lower overpotential than nitrogen doped graphene. The most active tubes are (14,7), (12,6), and (8,8), and display an overpotential of around 0.35 V, or 0.1 V lower overpotential than predicted on Pt(111) with the same level of theory.

机译：取代了最先进的燃料电池催化剂铂的廉价和丰富的选择将氢经济可行。nitrogen-doped石墨烯和nitrogen-doped碳纳米管(N-CNT)已被证明有能力作为不含金属的催化剂的氧还原反应(ORR)。研究集中在氮掺杂和减少对碳纳米管的结构。使用密度泛函理论计算计算或者催化活性的趋势不同的大小和graphitic-N-doped碳纳米管手性选择管(4,0)和之间(20、10)。曲折的管道和42个手性管,或72 N-CNTs在总。过电压比铂催化剂和46岁管超电势低于氮掺杂石墨烯。(6) 12(8、8),显示一个过电压约0.35 V,或0.1 V低的过电压比预测与相同级别的Pt (111)理论。

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来源
《Nanoscale》 |2019年第40期|18683-18690|共8页
作者
Gislason Petur Mar; Skulason Egill;
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作者单位

Univ Iceland, Inst Sci, VR 3, IS-107 Reykjavik, Iceland;

Univ Iceland, Fac Ind Engn Mech Engn & Comp Sci, VR 3, IS-107 Reykjavik, Iceland;

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原文格式 PDF
正文语种英语
中图分类 Online;
关键词
Carbon Nanotubes; chirality; Polarizationhydrogen economyCatalyst activity;

机译：碳纳米管;手性;PolarizationhydrogeneconomyCatalyst活动;

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Catalytic trends of nitrogen doped carbon nanotubes for oxygen reduction reaction

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