Ceramic electrochemical cells that operate at temperatures below 450 °C
Author:
Publisher
Springer Science and Business Media LLC
Subject
Energy Engineering and Power Technology,Fuel Technology,Renewable Energy, Sustainability and the Environment,Electronic, Optical and Magnetic Materials
Link
https://www.nature.com/articles/s41560-023-01352-2.pdf
Reference5 articles.
1. Gorte, R. J. Cooling down ceramic fuel cells. Science 349, 1290–1290 (2015). A perspective article that highlights the motivation for lowering the operating temperature of ceramic fuel cells.
2. Duan, C. et al. Readily processed protonic ceramic fuel cells with high performance at low temperatures. Science 349, 1321–1326 (2015). This paper reports low-temperature protonic ceramic fuel cells with high performance and long-term stability.
3. Liu, F., Ding, D. & Duan, C. Protonic ceramic electrochemical cells for synthesizing sustainable chemicals and fuels. Adv. Sci. 10, 2206478 (2023). A review article that presents developments in electrocatalytic materials for synthesizing chemicals in PCECs.
4. Bian, W. et al. Revitalizing interface in protonic ceramic cells by acid etch. Nature 604, 479–485 (2022). This paper reports an interfacial engineering approach to improve the performance of PCECs.
5. Clark, D. et al. Single-step hydrogen production from NH3, CH4, and biogas in stacked proton ceramic reactors. Science 376, 390–393 (2022). This paper reports a large-area protonic ceramic electrochemical reactor for hydrogen generation.
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