Self-Heating Conductive Ceramic Composites for High Temperature Thermal Energy Storage

Date Published
01/27/2025
Publication Type
Journal Article
Authors
DOI
10.1021/acsenergylett.4c03270
Abstract

The absence of affordable and deployable large-scale energy storage poses a major barrier to providing zero-emission energy on demand for societal decarbonization. High temperature thermal energy storage is one promising option with low cost and high scalability, but it is hindered by the inherent complexity of simultaneously satisfying all of the material requirements. Here we design a class of ceramic–carbon composites based on co-optimizing mechanical, electrical, and thermal properties. These composites demonstrate stability in soak-and-hold tests and direct self-heating up to 1,936 °C and 750 thermal cycles from 500 to 1,630 °C without degradation. This thermal performance derives from their composition and microstructural design as verified by in situ high-temperature transmission electron microscopy and X-ray diffraction. They offer both higher energy density and lower cost than conventional storage technologies with a projected system Levelized Cost of Storage below the U.S. Department of Energy’s 2030 target 5 ¢/kWh (electric).

Journal
ACS Energy Letters
Year of Publication
2025
Pagination
1002-1012
Publisher
American Chemical Society (ACS)
ISSN Number
2380-8195, 2380-8195
URL
Organizations
Research Areas
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