H2 Generation by Water Dissociation on Nano Alloy Clusters

Wenli Xie, Xinxin Jiang, Ge Xu, Xuhui Xu, Quan Gao, Bin Cui, De-sheng Liu, Dongmei Li
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Abstract

Doping earth-abundant elements in noble metal to form alloy can lower the material cost and may remove adhesive reaction products and improve the electrochemical characters to overcome the “catalyst poisoning”. Herein, we investigated the effects of one atom substitution in a Pt7 cluster with a carbon group element (X = C, Si, or Ge), forming a Pt6X cluster, and the interaction with an H2O molecule by density functional theory. Based on the reaction path analysis, we confirmed that the Pt6X cluster, superior to the Pt7 cluster, could directly catalyze the decomposition of H2O into free H2 and O+Pt6X complex. Moreover, by capturing a CO molecule, the CO@O+Pt6X complex subsequently passed a low energy barrier, returning to the isolated Pt6X and a free CO2 molecule, ultimately eliminating the reuse problem of the “poisoned catalyst”.
纳米合金团簇水解离制氢
在贵金属中掺入富土元素制备合金,不仅可以降低材料成本,而且可以去除粘附反应产物,改善电化学性能,克服“催化剂中毒”问题。本文通过密度泛函理论研究了Pt7簇中碳基团元素(X = C、Si或Ge)取代一个原子形成Pt6X簇的影响,以及与H2O分子的相互作用。通过反应路径分析,我们证实Pt6X簇优于Pt7簇,可以直接催化H2O分解为自由H2和O+Pt6X配合物。此外,通过捕获CO分子,CO@O+Pt6X配合物随后通过低能障,返回到分离的Pt6X和游离的CO2分子,最终消除了“有毒催化剂”的重复使用问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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