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Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ. / Shilova, A.; Chislova, I.; Panchuk, V.; Semenov, V.; Zvereva, I.

In: Solid State Phenomena, Vol. 194, 2013, p. 116-119.

Research output: Contribution to journalArticlepeer-review

Harvard

Shilova, A, Chislova, I, Panchuk, V, Semenov, V & Zvereva, I 2013, 'Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ', Solid State Phenomena, vol. 194, pp. 116-119. https://doi.org/10.4028/www.scientific.net/SSP.194.116

APA

Shilova, A., Chislova, I., Panchuk, V., Semenov, V., & Zvereva, I. (2013). Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ. Solid State Phenomena, 194, 116-119. https://doi.org/10.4028/www.scientific.net/SSP.194.116

Vancouver

Shilova A, Chislova I, Panchuk V, Semenov V, Zvereva I. Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ. Solid State Phenomena. 2013;194:116-119. https://doi.org/10.4028/www.scientific.net/SSP.194.116

Author

Shilova, A. ; Chislova, I. ; Panchuk, V. ; Semenov, V. ; Zvereva, I. / Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ. In: Solid State Phenomena. 2013 ; Vol. 194. pp. 116-119.

BibTeX

@article{7f4cc46361324212bb4f83cc376bc883,
title = "Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ",
abstract = "The present study is devoted to the non-isovalent substitution of Gd+3 for Sr+2 in matrix of Gd2-xSr1+xFe2O7 with perovskite-type intergrowth structure and to the investigation of oxidation state of iron depending on the method of synthesis and the content of solid solutions. Mossbauer spectroscopy showed the difference in the structure of complex ferrite Gd2SrFe2O7 obtained by ceramic technology (iron in single Fe+3 magnetically ordered state) from oxides obtained by the sol - gel technology (Fe+3 in the three different surroundings and presence of Fe+4).",
author = "A. Shilova and I. Chislova and V. Panchuk and V. Semenov and I. Zvereva",
year = "2013",
doi = "10.4028/www.scientific.net/SSP.194.116",
language = "English",
volume = "194",
pages = "116--119",
journal = "Solid State Phenomena",
issn = "1012-0394",
publisher = "Scientific.net",

}

RIS

TY - JOUR

T1 - Evolution of iron electronic state in the solid solutions Gd2-xSr1+xFe2O7-δ

AU - Shilova, A.

AU - Chislova, I.

AU - Panchuk, V.

AU - Semenov, V.

AU - Zvereva, I.

PY - 2013

Y1 - 2013

N2 - The present study is devoted to the non-isovalent substitution of Gd+3 for Sr+2 in matrix of Gd2-xSr1+xFe2O7 with perovskite-type intergrowth structure and to the investigation of oxidation state of iron depending on the method of synthesis and the content of solid solutions. Mossbauer spectroscopy showed the difference in the structure of complex ferrite Gd2SrFe2O7 obtained by ceramic technology (iron in single Fe+3 magnetically ordered state) from oxides obtained by the sol - gel technology (Fe+3 in the three different surroundings and presence of Fe+4).

AB - The present study is devoted to the non-isovalent substitution of Gd+3 for Sr+2 in matrix of Gd2-xSr1+xFe2O7 with perovskite-type intergrowth structure and to the investigation of oxidation state of iron depending on the method of synthesis and the content of solid solutions. Mossbauer spectroscopy showed the difference in the structure of complex ferrite Gd2SrFe2O7 obtained by ceramic technology (iron in single Fe+3 magnetically ordered state) from oxides obtained by the sol - gel technology (Fe+3 in the three different surroundings and presence of Fe+4).

U2 - 10.4028/www.scientific.net/SSP.194.116

DO - 10.4028/www.scientific.net/SSP.194.116

M3 - Article

VL - 194

SP - 116

EP - 119

JO - Solid State Phenomena

JF - Solid State Phenomena

SN - 1012-0394

ER -

ID: 5626948