Issue 12, 2023

Modulating redox properties of solid-state ion-conducting materials using microwave irradiation

Abstract

The industrial adoption of low-carbon technologies and renewable electricity requires novel tools for electrifying unitary steps and efficient energy storage, such as the catalytic synthesis of valuable chemical carriers. The recently-discovered use of microwaves as an effective reducing agent of solid materials provides a novel framework to improve this chemical-conversion route, thanks to promoting oxygen-vacancy formation and O2-surface exchange at low temperatures. However, many efforts are still required to boost the redox properties and process efficiency. Here, we scrutinise the dynamics and the physicochemical dependencies governing microwave-induced redox transformations on solid-state ion-conducting materials. The reduction is triggered upon a material-dependent induction temperature, leading to a characteristically abrupt rise in electric conductivity. This work reveals that the released O2 yield strongly depends on the material's composition and can be tuned by controlling the gas-environment composition and the intensity of the microwave power. The reduction effect prevails at the grain surface level and, thus, amplifies for fine-grained materials, and this is ascribed to limitations in oxygen-vacancy diffusion across the grain compared to a microwave-enhanced surface evacuation. The precise cyclability and stability of the redox process will enable multiple applications like gas depuration, energy storage, or hydrogen generation in several industrial applications.

Graphical abstract: Modulating redox properties of solid-state ion-conducting materials using microwave irradiation

Article information

Article type
Communication
Submitted
23 Aug 2023
Accepted
03 Oct 2023
First published
05 Oct 2023
This article is Open Access
Creative Commons BY license

Mater. Horiz., 2023,10, 5796-5804

Modulating redox properties of solid-state ion-conducting materials using microwave irradiation

J. M. Serra, M. Balaguer, J. Santos-Blasco, J. F. Borras-Morell, B. Garcia-Baños, P. Plaza-Gonzalez, D. Catalán-Martínez, F. Penaranda-Foix, A. Domínguez, L. Navarrete and J. M. Catala-Civera, Mater. Horiz., 2023, 10, 5796 DOI: 10.1039/D3MH01339A

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