通过创新的自封装和合金化策略增强三功能钯在电催化甲酸氧化反应中的催化活性和耐久性。

Empowering Tri-Functional Palladium's Catalytic Activity and Durability in Electrocatalytic Formic Acid Oxidation Reaction via Innovative Self-Caging and Alloying Strategies.

作者信息

Lee Chan-Woo, Jung Sun Young, Ryu Jeong Ho, Jeon Gyeom Seong, Gaur Ashish, Cho Min Su, Ali Ghulam, Kim Mingony, Chung Kyung Yoon, Nayak Arpan Kumar, Shin Seoyoon, Kwon Jiseok, Song Taeseup, Shin Tae Ho, Han HyukSu

机构信息

Energy AI & Computational Science Laboratory, Korea Institute of Energy Research (KIER), Daejeon, 34129, Republic of Korea.

Department of Energy Engineering, Konkuk University, Seoul, 05029, Republic of Korea.

出版信息

Adv Sci (Weinh). 2024 Dec;11(46):e2405725. doi: 10.1002/advs.202405725. Epub 2024 Oct 14.

DOI:10.1002/advs.202405725

PMID:39401433

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11633530/

Abstract

Direct formic acid fuel cells (DFAFCs) stand out for portable electronic devices owing to their ease of handling, abundant fuel availability, and high theoretical open circuit potential. However, the practical application of DFAFCs is hindered by the unsatisfactory performance of electrocatalysts for the sluggish anodic formic acid oxidation reaction (FAOR). Palladium (Pd) based nanomaterials have shown promise for FAOR due to their highly selective reaction mechanism, but maintaining high electrocatalytic durability remains challenging. In this study, a novel Pd-based electrocatalyst (UiO-Pd-E) is reported with exceptional durability and activity for FAOR, which can be attributed to the Pd nanoparticles encapsulated within a carbon framework where concurrent chemical alloying of Pd and Zr occurs. Further, the UiO-Pd-E demonstrates noteworthy multifunctionality in various electrochemical reactions including electrocatalytic ethanol oxidation reaction (EOR) and oxygen reduction reaction (ORR) in addition to the FAOR, highlighting its practical potentials.

摘要

直接甲酸燃料电池（DFAFCs）因其易于处理、燃料供应丰富以及理论开路电位高而在便携式电子设备中脱颖而出。然而，DFAFCs的实际应用受到阳极甲酸氧化反应（FAOR）缓慢的电催化剂性能不理想的阻碍。基于钯（Pd）的纳米材料由于其高度选择性的反应机制而在FAOR方面显示出前景，但保持高电催化耐久性仍然具有挑战性。在本研究中，报道了一种新型的基于Pd的电催化剂（UiO-Pd-E），它对FAOR具有出色的耐久性和活性，这可归因于封装在碳框架内的Pd纳米颗粒，其中Pd和Zr同时发生化学合金化。此外，除了FAOR之外，UiO-Pd-E在包括电催化乙醇氧化反应（EOR）和氧还原反应（ORR）在内的各种电化学反应中表现出显著的多功能性，突出了其实际应用潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/32ce/11633530/96fa741950b5/ADVS-11-2405725-g009.jpg

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通过创新的自封装和合金化策略增强三功能钯在电催化甲酸氧化反应中的催化活性和耐久性。

Empowering Tri-Functional Palladium's Catalytic Activity and Durability in Electrocatalytic Formic Acid Oxidation Reaction via Innovative Self-Caging and Alloying Strategies.

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