Chemistry and electrochemistry of CeO2-based interlayers: Prolonging the lifetime of solid oxide fuel and electrolysis cells

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Abstract

Research and development of solid oxide fuel cells (SOFCs) and solid oxide electrolysis cells (SOECs) are currently of paramount importance in terms of realizing hydrogen energy and carbon emission reduction programs, which many countries have committed to. Although, there are many outstanding results in the fabrication and characterization of SOFCs and SOECs with promising oxygen-ionic and proton-conducting electrolytes, conventional zirconia electrolytes are still widely used not only in a lab-scale setup, but also in the form of enlarged cells and stacks, with the experimental operation of the latter during 10 000–100 000 h. To ensure good performance stability and microstructural integrity of such multilayered cells, a special attention should be paid to the chemical activity of functional materials toward their interaction with each other, especially in long-term focus. The literature analysis has shown that many undesirable processes occur in SOFCs and SOECs with the classical pairs of zirconia electrolytes and strontium-containing electrodes, including element segregation and interdiffusion, insulating phase formation, microscopic defect appearance, and delamination. Some of these processes can be efficiently eliminated by using so-called interlayers designed from doped ceria materials. Due to their numerous beneficial functions, such interlayers have several synonymous names: blocking, barrier, buffer, or protecting layers. Herein, we review the recent progress and achievements in the fundamental and applied researches dealing with the ceria interlayers and their impact on chemistry and electrochemistry of solid oxide cells based on classical zirconia electrolytes as well as promising oxygen-ionic and proton-conducting analogs. The bibliography includes 405 references.

About the authors

Mikhail Viktorovich Erpalov

Institute of High-Temperature Electrochemistry, RAS; Hydrogen Energy Research Institute

ORCID iD: 0000-0003-3113-598X

Artem Pavlovich Tarutin

Institute of High-Temperature Electrochemistry, RAS; Hydrogen Energy Research Institute

ORCID iD: 0000-0001-5636-6499

Nikolai Aleksandrovich Danilov

Institute of High-Temperature Electrochemistry, RAS; Hydrogen Energy Research Institute

ORCID iD: 0000-0003-2983-2110

Denis Alekseevich Osinkin

Institute of High-Temperature Electrochemistry, RAS; Hydrogen Energy Research Institute

ORCID iD: 0000-0001-6396-8551

Dmitry Andreevich Medvedev

Institute of High-Temperature Electrochemistry, RAS; Hydrogen Energy Research Institute

Email: dmitrymedv@mail.ru
Doctor of chemical sciences

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