In April 2019 there was published the monograph of researcher from IEn's Department of High Temperature Electrochemical Processes Yevgeniy Naumovich entitled: Quantitative description of oxygen non-stoichiometry in mixed ionic and electronic conductors based on a non-ideal solution approach. It's the second issue of IEn's Monographs.
In April 2019 there was published the monograph of researcher from IEn's Department of High Temperature Electrochemical Processes Yevgeniy Naumovich entitled: Quantitative description of oxygen non-stoichiometry in mixed ionic and electronic conductors based on a non-ideal solution approach. It's the second issue of IEn's Monographs.
The monograph published last week discusses the theoretical approach for quantitative description of the oxygen non-stoichiometry of the complex oxides with mixed ionic and electronic conductivity. Dr. Naumovich has proposed and applied unique model to simulate non-stoichiometry using non-ideal solution approached. It aids in selection of materials with diverse levels of complexity of crystal structure, from cubic perovskites to Ruddlesden-Popper A4B3O10-d ferrites, including the practically-important lanthanum-strontium cobaltites, and molybdenum-doped strontium ferrites for solid oxide electrochemical cells.
Naumovich Y., Quantitative description of oxygen non-stoichiometry in mixed ionic and electronic conductors based on a non-ideal solution approach, Warszawa 2019, Wydawnictwo Instytutu Energetyki, 123 str., ISBN 978-83-63226-14-5.