Mobility and Reactivity of the Surface and Lattice Oxygen of Some Complex Oxides with Perovskite Structure

Mobility and Reactivity of the Surface and Lattice Oxygen of Some Complex Oxides with Perovskite Structure Full article

Общее

Language: Английский, Genre: Full article,
Status: Published, Source type: Original

Conference

Workshop on Mixed lonic Electronic Conducting (MIEC) Perovskites for Advanced Energy System
08-12 Jun 2003 , Kyiv

Source

Mixed Ionic Electronic Conducting Perovskites for Advanced Energy Systems
Compilation, Springer. Dordrecht.2004. 315 c. ISBN 9781402019449;9781402023491.

Journal

NATO Science Series II: Mathematics Physics and Chemistry
ISSN: 1568-2609

Output data

Year: 2004, Volume: 173, Pages: 53-74 Pages count : 22 DOI: 10.1007/978-1-4020-2349-1_5

Tags

perovskites; oxygen bonding strength; mobility and reactivity; isotope exchange

Authors

Sadykov V.A.

¹ , Bulgakov N.N.

¹ , Muzykantov V.S.

¹ , Kuznetsova T.G.

¹ , Alikina G.M.

¹ , Lukashevich A.I.

¹ , Potapova Yu.V.

¹ , Rogov V.A.

¹ , Burgina E.B.

¹ , Zaikovskii V.I.

¹ , Moroz E.M.

¹ , Litvak G.S.

¹ , Yakovleva I.S.

¹ , Isupova L.A.

¹ , Zyryanov V.V. ² , Kemnitz E. ³ , Neophytides S. ⁴

Affiliations

1	Boreskov Institute of Catalysis SB RAS
2	Institute of Solid State Chemistry SB RAS
3	Institute for Chemistry, Humboldt- University
4	Institute of Chemical Engineering & High Temperature Processes

Mobility and reactivity of the surface and bulk oxygen of perovskite-like mixed oxides including lanthanum manganite (I) and ferrite (II) systems modified by Ca (I,II) and fluorine (I), as well as some Co, Fe-containing complex perovskites were considered. Combination of thermal analysis data, oxygen isotope exchange, O2 TPD, reduction by CO, H2 and CH4 TPR, were applied to characterize the accessible surface/bulk oxygen mobility and reactivity. Comparison of these results with earlier data on the real (defect) structure of these systems by TEM, EXAFS, XRD, FTIRS, SIMS allowed to elucidate factors determining the oxygen mobility and reactivity. A quantitative description of the experimental energetic spectrum of oxygen bound with regular and defect surface sites of perovskites was obtained by using the semiempirical Interacting Bonds method with a due regard for the surface face termination and relaxation. Pronounced effect of cation vacancies on the activation barrier for the oxygen migration in the perovskite lattice has been revealed.

Sadykov V.A. , Bulgakov N.N. , Muzykantov V.S. , Kuznetsova T.G. , Alikina G.M. , Lukashevich A.I. , Potapova Y.V. , Rogov V.A. , Burgina E.B. , Zaikovskii V.I. , Moroz E.M. , Litvak G.S. , Yakovleva I.S. , Isupova L.A. , Zyryanov V.V. , Kemnitz E. , Neophytides S.
Mobility and Reactivity of the Surface and Lattice Oxygen of Some Complex Oxides with Perovskite Structure
In compilation Mixed Ionic Electronic Conducting Perovskites for Advanced Energy Systems. – Springer., 2004. – C.53-74. – ISBN 9781402019449;9781402023491. DOI: 10.1007/978-1-4020-2349-1_5 publication_identifier_short.wos_identifier_type publication_identifier_short.rinz_identifier_type

publication_identifier.wos_identifier_type	WOS:000225637900005
publication_identifier.rinz_identifier_type	41113028
publication_identifier.accession_number_identifier_type	2006:111733
publication_identifier.chemical_accession_number_identifier_type	145:444560