Sciact
  • EN
  • RU

Advanced Materials for Solid Oxide Fuel Cells and Membrane Catalytic Reactors Full article

Source Advanced Nanomaterials for Catalysis and Energy. Synthesis, Characterization and Applications
Monography, Elsevier. Amsterdam, Netherlands.2019. 587 c. ISBN 9780128148075. Scopus Scopus РИНЦ
Output data Year: 2019, Number: ch. 12, Pages: 435-514 Pages count : 80 DOI: 10.1016/B978-0-12-814807-5.00012-7
Tags Solid oxide fuel cells; Membranes; Anodes; Cathodes; Electrolytes; Mixed ionic-electronic conductors; Synthesis; Oxygen mobility and surface reactivity; Proton conductivity; Testing
Authors Sadykov Vladislav A. 1,2 , Mezentseva Natalia V. 1,2 , Bobrova Lyudmila N. 1 , Smorygo Oleg L. 3 , Eremeev Nikita F. 1 , Fedorova Yulia E. 1 , Bespalko Yulia N. 1 , Skriabin Pavel I. 1 , Krasnov Alexey V. 1 , Lukashevich Anton I. 1 , Krieger Tamara A. 1,2 , Sadovskaya Ekaterina M. 1,2 , Belyaev Vladimir D. 1 , Shmakov Alexander N. 1,2,4 , Vinokurov Zakhar S. 1,2 , Bolotov Vladimir A. 1 , Tanashev Yuri Yu. 1 , Korobeynikov Mikhail V. 4 , Mikhailenko Mikhail A. 4
Affiliations
1 Boreskov Institute of Catalysis SB RAS, Novosibirsk, Russia
2 Novosibirsk State University, Novosibirsk, Russia
3 Powder Metallurgy Institute, Minsk, Belarus
4 Budker Institute of Nuclear Physics SB RAS, Novosibirsk, Russian Federation

Funding (11)

1 The Ministry of Education and Science of the Russian Federation Проект 5-100
2 Russian Science Foundation 16-13-00112
3 European Commission 20089 FP6-2004-ENERGY-3 SOFC600
4 European Commission 604296 FP7-NMP-2013-LARGE-7 BIOGO
5 Federal Agency for Scientific Organizations 0303-2015-0001 (II.2П/V.45-10)
6 Federal Agency for Scientific Organizations 0303-2016-0013
7 Siberian Branch of the Russian Academy of Sciences 57
8 The Ministry of Education and Science of the Russian Federation 14.740.12.1357
9 North Atlantic Treaty Organization SfP-980878
10 Siberian Branch of the Russian Academy of Sciences 8
11 Президиум РАН 50

Abstract: This chapter reviews recent advances in developing intermediate-temperature solid oxide fuel cells; oxygen and hydrogen separation membranes; and methods for obtaining advanced oxide, nanocomposite, and nanostructured materials for such devices. All the materials were synthesized by novel methods and characterized by sophisticated techniques. High ionic conductivity and improved oxygen/protonic mobility and surface reactivity were demonstrated. A new approach to building the functional layers was developed. A high-power density of single-button fuel cells in the intermediate-temperature range was reached. Oxygen and hydrogen separation membranes demonstrated promising and stable performance due to fast ionic transport and high catalytic activity of the materials concerned.
Cite: Sadykov V.A. , Mezentseva N.V. , Bobrova L.N. , Smorygo O.L. , Eremeev N.F. , Fedorova Y.E. , Bespalko Y.N. , Skriabin P.I. , Krasnov A.V. , Lukashevich A.I. , Krieger T.A. , Sadovskaya E.M. , Belyaev V.D. , Shmakov A.N. , Vinokurov Z.S. , Bolotov V.A. , Tanashev Y.Y. , Korobeynikov M.V. , Mikhailenko M.A.
Advanced Materials for Solid Oxide Fuel Cells and Membrane Catalytic Reactors
Monography chapter Advanced Nanomaterials for Catalysis and Energy. Synthesis, Characterization and Applications. – Elsevier., 2019. – C.435-514. – ISBN 9780128148075. DOI: 10.1016/B978-0-12-814807-5.00012-7 Scopus РИНЦ
Dates:
Published online: Sep 28, 2018
Published print: Jan 1, 2019
Identifiers:
Scopus 2-s2.0-85080047080
Elibrary 43243063
Chemical Abstracts 2020:160825
OpenAlex W2894297061
publication.block.citing_info:
БД Цитирований
Scopus 14
Elibrary 10
OpenAlex 12
Altmetrics: