Anion Constructor for Atomic‐Scale Engineering of Antiperovskite Crystals for Electrochemical Reactions

催化作用 抗血小板 材料科学 纳米晶 氮化物 晶体结构 电催化剂 合金 电化学 化学工程 无机化学 纳米技术 结晶学 冶金 物理化学 化学 电极 有机化学 图层(电子) 工程类
作者
Sehyun Lee,Jae Young Jung,Injoon Jang,Daeil Choi,M. J. Lee,Dong Wook Lee,Jue‐Hyuk Jang,Jeong Hee Lee,Haneul Jin,Kyungmin Im,Eungjun Lee,Seung‐hoon Kim,Nam Dong Kim,Soo‐Hyoung Lee,Yun Sik Kang,Hee‐Young Park,Dong Won Chun,Hyung Chul Ham,Kug‐Seung Lee,Docheon Ahn
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:31 (16) 被引量:11
标识
DOI:10.1002/adfm.202009241
摘要

Abstract Among the Pt group metals, Pd has been considered the most efficient for application in electrocatalysts as an alternative to Pt. Despite the comparable electrochemical activities of Pd and Pd‐metal alloys, they are vulnerable to liquid acidic electrolytes, leading to degradation of catalytic activity. Pd–Ni alloys have been used to enhance catalytic activity because the electronic structure of Pd can be easily changed by adding Ni. In other studies, N atoms have been introduced for more stable M–Ni catalysts by inducing the formation of Ni 4 N species; however, the structural analysis and the role of nitrogen have not been fully understood yet. Herein, the Pd–Ni alloy nitride with a unique crystal structure shows a promising catalytic activity for oxygen reduction reaction (ORR). The nitride PdNi nanoparticles have a novel monolithic antiperovskite structure of chemical formula (Pd x Ni 1− x )NNi 3 . The unique antiperovskite crystal (Pd x Ni 1− x )NNi 3 possesses superior ORR activity and stability, originating from the downshifted d‐band center of the monolayer Pd/antiperovskite surface and the lower formation energy of the antiperovskite core nanocrystal. Consequently, (Pd x Ni 1− x )NNi 3 , as a Pt‐free Pd‐based electrocatalyst, overcomes the stability issue of Pd under acidic conditions by achieving 99‐times higher mass activity than commercial Pd/C, as shown by the durability test.
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