铂团簇的尺寸和电荷对甲醇脱氢第一步电催化活性的影响

IF 2.7 4区 工程技术 Q3 ELECTROCHEMISTRY
Yong-Chun Tong, Qing-Yun Wang, Yu-Jie Hu, Zhi-Juan Shi, Ke Zhang
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引用次数: 0

摘要

甲醇在铂团簇上的 O-H/C-H 裂解是直接甲醇燃料电池(DMFC)应用中的关键步骤。我们研究了不同电荷状态下甲醇在 Ptnq 团簇(n=5、13、19;q=0、+1、-1)上的第一次脱氢过程。研究结果表明,与中性 Ptn 或阴离子 Ptn- 相比,甲醇更容易吸附在阳离子 Ptn+ 上。然而,甲醇在 Ptnq 上的吸附容量会随着团簇尺寸的增大而逐渐减小,尤其是 CH3OH 在 Ptn+ 上的吸附容量会显著减小(从 -57.61 到 -16.41 kcal/mol)。与 Ptn 和 Ptn+ 相比,向 Ptn 中注入一个电子形成 Ptn- 后,O-H/C-H 键裂解的能垒明显降低,催化剂的活性得到提高。然而,O-H/C-H 键裂解的能量势垒随着团簇大小的增加而逐渐增大,导致催化活性降低。电荷的影响随着团簇大小的增加而减弱,注入电子的小团簇表现出更好的催化活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The size and charge effect of Pt cluster on the electrocatalytic activity towards the first step of dehydrogenation of methanol
The O-H/C-H scission of methanol on Pt clusters is a crucial step in direct methanol fuel cells (DMFCs) applications. The first dehydrogenation process of methanol on Ptnq clusters (n=5, 13, 19; q=0, +1, −1) in various charge states is studied. Our findings indicate that methanol adsorbs more easily on cationic Ptn+ than on neutral Ptn or anionic Ptn−. However, the adsorption capacity of methanol on Ptnq gradually decreases with increasing cluster size, especially for CH3OH on Ptn+, which decreases significantly (from −57.61 to −16.41 kcal/mol). Compared with Ptn and Ptn+, the energy barrier of O-H/C-H bond cleavage is significantly reduced by injecting an electron into Ptn to form Ptn−, and the activity of catalyst is improved. However, the energy barrier of O-H/C-H cleavage increases gradually with cluster size, leading to a decrease in catalytic activity. The effect of charge weakens as cluster size increases, and small clusters with injected electrons exhibit better catalytic activity.
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来源期刊
CiteScore
4.90
自引率
4.00%
发文量
69
期刊介绍: The Journal of Electrochemical Energy Conversion and Storage focuses on processes, components, devices and systems that store and convert electrical and chemical energy. This journal publishes peer-reviewed archival scholarly articles, research papers, technical briefs, review articles, perspective articles, and special volumes. Specific areas of interest include electrochemical engineering, electrocatalysis, novel materials, analysis and design of components, devices, and systems, balance of plant, novel numerical and analytical simulations, advanced materials characterization, innovative material synthesis and manufacturing methods, thermal management, reliability, durability, and damage tolerance.
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