Nature Communications (Feb 2025)

Electrochemical epoxidation enhanced by C2H4 activation and hydroxyl generation at the Ag/SnO2 interface

  • Hao Dong,
  • Ran Luo,
  • Gong Zhang,
  • Lulu Li,
  • Chaoxi Wang,
  • Guodong Sun,
  • Hongyi Wang,
  • Jiachang Liu,
  • Tuo Wang,
  • Zhi-Jian Zhao,
  • Peng Zhang,
  • Jinlong Gong

DOI
https://doi.org/10.1038/s41467-025-57223-9
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 10

Abstract

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Abstract Direct electrochemical ethylene (C2H4) epoxidation with water (H2O) represents a promising approach for the production of value-added ethylene oxide (EO) in a sustainable way. However, the activity remains limited due to the sluggish activation of C2H4 and the stiff formation of *OH intermediate. This paper describes the design of a Ag/SnO2 electrocatalyst to achieve efficient electrochemical C2H4 epoxidation with a high faradaic efficiency of 39.4% for EO and a high selectivity of 91.5% at 25 mA/cm2 in a membrane electrode assembly. Results of in situ attenuated total reflection infrared spectra characterizations and computational calculations reveal that the Ag/SnO2 interface promotes C2H4 adsorption and activation to obtain *C2H4. Moreover, electrophilic *OH is generated on the catalyst surface through H2O dissociation, which further reacts with *C2H4 to facilitate the formation of *C2H4OH, contributing to the enhanced electrochemical epoxidation activity. This work would provide general guidance for designing catalysts for electrochemical olefin epoxidation through interface engineering.