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- Title
In situ structural evolution of BiOCOOH nanowires and their performance towards electrocatalytic CO<sub>2</sub> reduction.
- Authors
Jiang, Yinlong; Chen, Qingsong; Wang, Di; Li, Xin; Xu, Yuping; Xu, Zhongning; Guo, Guocong
- Abstract
Bismuth-based materials have attracted broad research interest as catalysts for electrocatalytic CO2 reduction (ECR) to formate in recent years. Most studies have been focused on exploring materials with high activity, selectivity, and durability, while little attention has been paid to the catalysts structure stability especially under working conditions of CO2 electrolysis. Here, starting from the precursor of bismuth oxide formate nanowires (BiOCOOH NWs), it was found that BiOCOOH NWs were easy to electrochemically evolve into two-dimensional sheet structure in CO2-saturated KHCO3 solution and would further reconstitute into larger ultrathin bismuth nanosheets covered with amorphous oxide thin layer (Bi/BiOx NSs). However, in Ar-saturated HCOONa solution, the one-dimensional structure could be maintained and reconstructed into rough porous bismuth nanowires (Bi NWs). Bi NWs showed less stability during ECR, which also generated surface amorphous oxide layer and further fragmentated into nanoparticles or nanosheets. Bi/BiOx NSs showed better activity, selectivity, and stability than Bi NWs, thanks to the high exposing active sites, enhancing CO2 adsorption and charge transfer. The demonstrated electrolyte dependence of structure evolution for bismuth-based catalysts and their performance for CO2 electroreduction could provide guidance for the design and synthesis of efficient catalysts.
- Subjects
NANOWIRES; CATALYST structure; BISMUTH trioxide; STRUCTURAL stability; WAGE payment systems; BISMUTH; PHOTOCATHODES
- Publication
Nano Research, 2023, Vol 16, Issue 5, p6661
- ISSN
1998-0124
- Publication type
Article
- DOI
10.1007/s12274-023-5444-1