| Literature DB >> 31090132 |
Yue Wang1, Miao-Miao Shi1, Di Bao2, Fan-Lu Meng1, Qi Zhang2, Yi-Tong Zhou1, Kai-Hua Liu1, Yan Zhang1, Jia-Zhi Wang2, Zhi-Wen Chen1, Da-Peng Liu3, Zheng Jiang4, Mi Luo4, Lin Gu5, Qing-Hua Zhang5, Xing-Zhong Cao6, Yao Yao7, Min-Hua Shao7, Yu Zhang3, Xin-Bo Zhang2, Jingguang G Chen8, Jun-Min Yan1, Qing Jiang1.
Abstract
The electrochemical N2 fixation, which is far from practical application in aqueous solution under ambient conditions, is extremely challenging and requires a rational design of electrocatalytic centers. We observed that bismuth (Bi) might be a promising candidate for this task because of its weak binding with H adatoms, which increases the selectivity and production rate. Furthermore, we successfully synthesized defect-rich Bi nanoplates as an efficient noble-metal-free N2 reduction electrocatalyst via a low-temperature plasma bombardment approach. When exclusively using 1 H NMR measurements with N2 gas as a quantitative testing method, the defect-rich Bi(110) nanoplates achieved a 15 NH3 production rate of 5.453 μg mgBi -1 h-1 and a Faradaic efficiency of 11.68 % at -0.6 V vs. RHE in aqueous solution at ambient conditions.Entities:
Keywords: bismuth nanosheets; defects; nitrogen reduction; non-noble-metals; quantitative NMR testing
Year: 2019 PMID: 31090132 DOI: 10.1002/anie.201903969
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336