Insights into the synergistic catalytic mechanism on the customized dual sites of an efficient ORR catalyst†

IF 4.4 3区 化学 Q2 CHEMISTRY, PHYSICAL Catalysis Science & Technology Pub Date : 2023-09-05 DOI:10.1039/D3CY01066J
Jinyu Zhao, Xu Chen, Jie Lian, Yu Gao, Yixing Zhang and Xiaomin Wang
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Abstract

PtCo alloys as compelling catalysts for the oxygen reduction reaction (ORR) have been loaded on heteroatom-modified carbon carriers in recent years to modulate their electronic structure and influence their interaction with intermediates. However, the actual active sites remain unclear and their interaction with intermediates is still controversial. Herein, PtCo/PC catalysts were synthesized by loading PtCo alloys on P-modified carbon carriers, and their catalytic mechanism was investigated using in situ Raman spectroscopy. In the results, the distorted and disordered PtCo alloy sites and the P-C defect sites are pinpointed and clarified as the double active sites for such catalysts. Among which, PtCo/PC-2 has the most abundant active sites, an optimal hierarchical porous structure, and the strongest Co–P binding, thereby showing ORR activity and stability. Combined with in situ Raman analysis, it exposits that the doped P atom in PtCo/PC-2 possesses strong electron-donating ability, which indirectly helps Pt function as an electron reservoir to donate electrons for OOH* on PtCo alloy sites, and directly weakens the adsorption energy of OOH* on P–C defect sites. Furthermore, the dynamic evolution of OOH* discloses that the double active sites on PtCo/PC-2 synergistically promote the ORR process via an associative pathway.

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深入了解高效ORR催化剂定制双位点的协同催化机制†
近年来,作为氧还原反应(ORR)的引人注目的催化剂,PtCo合金已被负载在杂原子修饰的碳载体上,以调节其电子结构并影响其与中间体的相互作用。然而,实际的活性位点仍然不清楚,它们与中间体的相互作用仍然存在争议。本文通过在P改性碳载体上负载PtCo合金合成了PtCo/PC催化剂,并利用原位拉曼光谱研究了其催化机理。在结果中,扭曲和无序的PtCo合金位点和P-C缺陷位点被精确定位并阐明为这种催化剂的双活性位点。其中,PtCo/PC-2具有最丰富的活性位点、最佳的分级多孔结构和最强的Co–P结合,从而显示出ORR活性和稳定性。结合原位拉曼光谱分析表明,PtCo/PC-2中掺杂的P原子具有较强的给电子能力,这间接地帮助Pt作为电子库为PtCo合金位点上的OOH*提供电子,并直接削弱了OOH*在P–C缺陷位点上的吸附能。此外,OOH*的动态进化揭示了PtCo/PC-2上的双活性位点通过缔合途径协同促进ORR过程。
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来源期刊
Catalysis Science & Technology
Catalysis Science & Technology CHEMISTRY, PHYSICAL-
CiteScore
8.70
自引率
6.00%
发文量
587
审稿时长
1.5 months
期刊介绍: A multidisciplinary journal focusing on cutting edge research across all fundamental science and technological aspects of catalysis. Editor-in-chief: Bert Weckhuysen Impact factor: 5.0 Time to first decision (peer reviewed only): 31 days
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