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反应驱动将缺陷的PtSe重构为用于氧还原反应的超稳定催化剂。

Reaction-driven restructuring of defective PtSe into ultrastable catalyst for the oxygen reduction reaction.

作者信息

Niu Wenhan, Pakhira Srimanta, Cheng Guangming, Zhao Fang, Yao Nan, Mendoza-Cortes Jose L, Koel Bruce E

机构信息

Department of Chemical & Biological Engineering, Princeton University, Princeton, NJ, USA.

Department of Physics and Centre for Advanced Electronics (CAE), Indian Institute of Technology Indore, Indore, India.

出版信息

Nat Mater. 2024 Dec;23(12):1704-1711. doi: 10.1038/s41563-024-02020-w. Epub 2024 Oct 7.

DOI:10.1038/s41563-024-02020-w
PMID:39375480
Abstract

PtM (M = S, Se, Te) dichalcogenides are promising two-dimensional materials for electronics, optoelectronics and gas sensors due to their high air stability, tunable bandgap and high carrier mobility. However, their potential as electrocatalysts for the oxygen reduction reaction (ORR) is often underestimated due to their semiconducting properties and limited surface area from van der Waals stacking. Here we show an approach for synthesizing a highly efficient and stable ORR catalyst by restructuring defective platinum diselenide (DEF-PtSe) through electrochemical cycling in an O-saturated electrolyte. After 42,000 cycles, DEF-PtSe exhibited 1.3 times higher specific activity and 2.6 times higher mass activity compared with a commercial Pt/C electrocatalyst. Even after 126,000 cycles, it maintained superior ORR performance with minimal decay. Quantum mechanical calculations using hybrid density functional theory reveal that the improved performance is due to the synergistic contributions from Pt nanoparticles and the apical active sites on the DEF-PtSe surface. This work highlights the potential of DEF-PtSe as a durable electrocatalyst for ORR, offering insights into PtM dichalcogenide electrochemistry and the design of advanced catalysts.

摘要

PtM(M = S、Se、Te)二硫属化物因其高空气稳定性、可调节的带隙和高载流子迁移率,成为电子学、光电子学和气体传感器领域颇具前景的二维材料。然而,由于其半导体性质以及范德华堆积导致的有限表面积,它们作为氧还原反应(ORR)电催化剂的潜力常常被低估。在此,我们展示了一种通过在O饱和电解质中进行电化学循环来重构缺陷二硒化铂(DEF-PtSe),从而合成高效且稳定的ORR催化剂的方法。经过42,000次循环后,与商业Pt/C电催化剂相比,DEF-PtSe的比活性高1.3倍,质量活性高2.6倍。即使在126,000次循环后,它仍保持优异的ORR性能,衰减极小。使用混合密度泛函理论进行的量子力学计算表明,性能的提升归因于Pt纳米颗粒和DEF-PtSe表面顶端活性位点的协同作用。这项工作突出了DEF-PtSe作为一种耐用的ORR电催化剂的潜力,为PtM二硫属化物电化学以及先进催化剂的设计提供了见解。

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