金和铂表面氮电化学还原反应的光谱研究。

A Spectroscopic Study on the Nitrogen Electrochemical Reduction Reaction on Gold and Platinum Surfaces.

机构信息

Department of Chemical and Biological Engineering, and ‡Energy Institute, The Hong Kong University of Science and Technology , Clear Water Bay, Kowloon, Hong Kong.

Department of Materials Science and Engineering, and ∥Department of Mechanical and Energy Engineering, South University of Science and Technology of China , 1088 Xueyuan Boulevard, Nanshan District, Shenzhen, Guangdong 518055, China.

出版信息

J Am Chem Soc. 2018 Jan 31;140(4):1496-1501. doi: 10.1021/jacs.7b12101. Epub 2018 Jan 18.

DOI:10.1021/jacs.7b12101

PMID:29320173

Abstract

The electrochemical reduction of nitrogen to ammonia on Au-based catalysts showed a reasonably high Coulombic efficiency. The pathway of this promising reaction, however, is not clear partially due to the lack of information on reaction intermediates. Herein, surface-enhanced infrared absorption spectroscopy (SEIRAS) was employed to study the reaction mechanisms of nitrogen reduction on an Au thin film for the first time. During the nitrogen reduction, the NH species was detected with bands at 1453 (H-N-H bending), 1298 (-NH wagging), and 1109 cm (N-N stretching) at potentials below 0 V against reversible hydrogen electrode. This result indicates that the nitrogen reduction reaction on Au surfaces follows an associative mechanism, and the N≡N bond in N tends to break simultaneously with the hydrogen addition. By comparison, no absorption band associated with N was observed on Pt surfaces under the same reaction condition. This result is consistent with the low efficiency of nitrogen reduction on Pt due to the much faster kinetics of hydrogen evolution reaction.

摘要

在基于金的催化剂上，氮电化学还原为氨显示出相当高的库仑效率。然而，由于缺乏关于反应中间体的信息，该有前景的反应途径尚不完全清楚。在此，首次采用表面增强红外吸收光谱（SEIRAS）研究了氮在金薄膜上还原的反应机理。在氮还原过程中，在低于 0 V 对可逆氢电极的电势下，检测到 NH 物种的吸收带在 1453 cm（H-N-H 弯曲）、1298 cm（-NH 摇摆）和 1109 cm（N-N 伸缩）处。这一结果表明，金表面上的氮还原反应遵循缔合机理，N 中的 N≡N 键倾向于与氢加成同时断裂。相比之下，在相同的反应条件下，在 Pt 表面上没有观察到与 N 相关的吸收带。这一结果与由于析氢反应动力学快得多，Pt 上氮还原效率低的结果一致。

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金和铂表面氮电化学还原反应的光谱研究。

A Spectroscopic Study on the Nitrogen Electrochemical Reduction Reaction on Gold and Platinum Surfaces.

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