Surface Reconstruction of Single-Twinned AgPdIr Nanoalloy during the Formate Oxidation and Dehydrogenation Reactions

Formate has emerged as a promising energy carrier to generate electrons via formate oxidation reaction (FOR) and hydrogen via formate dehydrogenation reaction (FDR), and it is desirable but difficult to design a novel bifunctional (electro)­catalyst to improve reaction kinetics. Herein, we construct...

Full description

Saved in:
Bibliographic Details
Published in:ACS omega 2024-11, Vol.9 (46), p.45811-45821
Main Authors: Tang, Quan, Guo, Longfei, Jin, Tao, Shan, Shuang, Wang, Qiao, Wang, Junpeng, Pan, Bowei, Li, Zhen, Chen, Fuyi
Format: Article
Language:English
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Formate has emerged as a promising energy carrier to generate electrons via formate oxidation reaction (FOR) and hydrogen via formate dehydrogenation reaction (FDR), and it is desirable but difficult to design a novel bifunctional (electro)­catalyst to improve reaction kinetics. Herein, we construct the single-twinned AgPdIr (t-AgPdIr) nanoalloy to improve the catalytic activity and stability for the formate oxidation and dehydrogenation processes. The t-AgPdIr nanoalloy, characterized by a distinctive twinned structure with strains and a downshift of the d-band center, demonstrates an improved peak current density of 4.6 A·mgPd –1, a diminished onset potential of 0.45 V, a superior activity retention of 55.7% after 600 cycles, and a current density of 0.73 A·mgPd –1 following potentiostatic polarization for 3600 s. Additionally, the t-AgPdIr catalyst shows an enhanced turnover frequency value of 407.3 h–1, a higher volume of generated H2 gas up to 51.8 mL after 120 min of reaction, and an activity recovery of 90.7% after five reaction cycles. Impressively, compared with the as-prepared nanoalloy, the postreaction catalyst shows a stable strain state along the twin boundaries and a surface segregation of Pd and Ir elements after the formate oxidation and dehydrogenation reactions.
ISSN:2470-1343
2470-1343
DOI:10.1021/acsomega.4c03637