Issue 14, 2024, Issue in Progress

Effect of CeO2 support structure on the catalytic performance of ammonia synthesis in an electric field at low temperatures

Abstract

Ammonia is an extremely important storage and transport medium for renewable energy, and technology is expected to produce it on demand and onsite using renewable energy. Applying a DC (direct current) to a solid catalyst layer with semiconducting properties makes ammonia synthesis highly efficient, even at low temperatures (approximately 400 K). In this process, oxide supports with semiconducting properties play important roles as metal supports and conduction fields for electrons and protons. The influence of the degree of particle aggregation on the support properties and ammonia synthesis using an electric field was evaluated for CeO2, which is the best material for this purpose because of its semiconducting properties. The results showed that controlling the aggregation structure of the crystalline particles could significantly influence the surface conductivity of protons and electrons; thus, the activity could be largely controlled. The Ru–CeO2 interaction could also be controlled by changing the crystallinity, which suppressed the aggregation of the supported Ru and significantly improved the ammonia synthesis activity using an electric field at low temperatures.

Graphical abstract: Effect of CeO2 support structure on the catalytic performance of ammonia synthesis in an electric field at low temperatures

Supplementary files

Article information

Article type
Paper
Submitted
25 Feb 2024
Accepted
15 Mar 2024
First published
25 Mar 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 9869-9877

Effect of CeO2 support structure on the catalytic performance of ammonia synthesis in an electric field at low temperatures

R. Maeda, H. Sampei, R. Nakayama, T. Higo, Y. Koshizuka, Y. Bando, T. Komanoya, Y. Nakahara and Y. Sekine, RSC Adv., 2024, 14, 9869 DOI: 10.1039/D4RA01457J

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