
<div class="publication-info">
	<h3>Iron meteorites and their weathering products: High velocity resolution Mössbauer spectroscopy of the iron-bearing minerals / Goryunov M.V., Yakovlev G.A., Chukin A.V., Grokhovsky V.I., Semionkin V.A., Oshtrakh M.I. // European Journal of Mineralogy. - 2016. - V. 28, l. 3. - P. 601-610.</h3>
	<dl>
		<dt>ISSN:</dt><dd>09351221</dd>
		<dt>Type:</dt><dd>Conference Paper</dd>
				<dt>Abstract:</dt><dd>The iron meteorites Anyujskij IIAB, Sikhote-Alin IIAB, Sterlitamak IIIAB, Aliskerovo IIIE-An and Dronino iron-ung and products of Dronino meteorite weathering in clay sand were studied using Mössbauer spectroscopy with a high velocity resolution. Components revealed in the complex Mössbauer spectra were related to corresponding iron-bearing minerals. A difference in the oxidation products of two Dronino fragments was observed. The presence of siderite was found in the external surface oxidation layer in the second fragment, which may be a result of goethite bioreduction in clay sand. © 2016 E. Schweizerbart'sche Verlagsbuchhandlung.</dd>
		<dt>Author keywords:</dt><dd>Co); Co) and γ-Fe(Ni; Co) Phases; Iron Meteorites; Maghemite And Goethite; Magnetite; Mössbauer spectroscopy; Siderite; Weathering; α-Fe(Ni; α2-Fe(Ni</dd>
		<dt>Index keywords:</dt><dd>нет данных</dd>
		<dt>DOI:</dt><dd>10.1127/ejm/2016/0028-2545</dd>
		<dt>Смотреть в Scopus:</dt>
			<dd>
								<a href="https://www.scopus.com/inward/record.uri?eid=2-s2.0-84989939265&doi=10.1127%2fejm%2f2016%2f0028-2545&partnerID=40&md5=be2d2be02e3b4f8950f3db4eb5dd9273" target="_blank">https://www.scopus.com/inward/record.uri?eid=2-s2.0-84989939265&amp;doi=10.1127%2fejm%2f2016%2f0028-2545&amp;partnerID=40&amp;md5=be2d2be02e3b4f8950f3db4eb5dd9273</a>
							</dd>

		<dt>Соавторы в МНС:</dt>
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				</dd>

				<dt>Другие поля</dt>
		<dd>
			<table class="v-table">
			<thead>
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					<td class="w8 gar">Поле</td>
					<td>Значение</td>
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			</thead>
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						<td class="gar">Link</td>
						<td>https://www.scopus.com/inward/record.uri?eid=2-s2.0-84989939265&doi=10.1127%2fejm%2f2016%2f0028-2545&partnerID=40&md5=be2d2be02e3b4f8950f3db4eb5dd9273</td>
					</tr>
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						<td class="gar">Affiliations</td>
						<td>Department of Physical Techniques and Devices for Quality Control, Institute of Physics and Technology, Ural Federal University, Ekaterinburg, Russian Federation; Department of Experimental Physics, Institute of Physics and Technology, Ural Federal University, Ekaterinburg, Russian Federation; Department of Theoretical Physics and Applied Mathematics, Institute of Physics and Technology, Ural Federal University, Ekaterinburg, Russian Federation</td>
					</tr>
										<tr>
						<td class="gar">Author Keywords</td>
						<td>Co); Co) and γ-Fe(Ni; Co) Phases; Iron Meteorites; Maghemite And Goethite; Magnetite; Mössbauer spectroscopy; Siderite; Weathering; α-Fe(Ni; α2-Fe(Ni</td>
					</tr>
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						<td class="gar">References</td>
						<td>Baldokhin, Yu.V., Tcherdyntsev, V.V., Kaloshkin, S.D., Kochetov, G.A., Pustov, Y.A., Transformations and fine magnetic structure of mechanically alloyed Fe-Ni alloys (1999) J. Mag. Mag. Mater, 203, pp. 313-315; Buchwald, V.F., (1975) Handbook of Iron Meteorites, p. 1418. , University of California Press Berkeley; Dideriksen, K., Frandsen, C., Bovet, N., Wallace, A.F., Sel, O., Arbour, T., Navrotsky, A., Banfield, J.F., Formation and transformation of a short range ordered iron carbonate precursor (2015) Geochim. Cosmochim. Acta, 164, pp. 94-109; Dos Santos, E., Gattacceca, J., Rochette, P., Scorzelli, R.B., Fillion, G., Magnetic hysteresis properties and 57Fe Mössbauer spectroscopy of iron and stony-iron meteorites: Implications for mineralogy and thermal history (2015) Phys. Earth Planet. Inter, 242, pp. 50-64; Dunlap, R.A., A Mössbauer effect investigation of the enstatite chondrite from Abee, Canada (1997) Hyperfine Interact, 110, pp. 209-215; Goldstein, J.I., Scott, E.R.D., Chabot, N.L., Iron meteorites: Crystallization, thermal history, parent bodies, and origin (2009) Chem. Erde, 69, pp. 293-325; Goodman, B.A., (1994) Clay Mineralogy: Spectroscopic and Chemical Determinative Methods, pp. 68-119. , ed. Wilson, M.J Chapman & Hall, London; Grady, M., Pratesi, G., Moggi Cecchi, V., (2014) Atlas of Meteorites, p. 384. , Cambridge University Press Cambridge; Grokhovsky, V.I., Oshtrakh, M.I., Milder, O.B., Semionkin, V.A., Mössbauer spectroscopy of iron meteorite dronino and products of its corrosion (2005) Hyperfine Interact, 166, pp. 671-677; Grokhovsky, V.I., Zhiganova, E.V., Larionov, M.Yu., Uimina, K.A., Oshtrakh, M.I., Mössbauer spectroscopy with high velocity resolution in the meteorites study (2008) The Phys. Metals Metallogr, 105, pp. 177-187; Grokhovsky, V.I., Oshtrakh, M.I., Petrova, E.V., Larionov, M.Yu., Uymina, K.A., Semionkin, V.A., Mössbauer spectroscopy with high velocity resolution in the study of iron-bearing minerals in meteorites (2009) Eur. J. Mineral, 21, pp. 51-63; Maitte, B., Jorand, F.P.A., Grgic, D., Abdelmoula, M., Carteret, C., Remineralization of ferrous carbonate from bioreduction of natural goethite in the Lorraine iron ore (Minette) by Shewanella putrefaciens (2015) Chem. Geol, 412, pp. 48-58; Murad, E., Mössbauer spectroscopy of clays, soils and their mineral constituents (2010) Clay Mineral, 45, pp. 413-430; Oshtrakh, M.I., Semionkin, V.A., Mössbauer spectroscopy with a high velocity resolution: Advances in biomedical, pharmaceutical, cosmochemical and nanotechnological research (2013) Spectrochim. Acta, Part A: Molec. Biomolec. Spectroscopy, 100, pp. 78-87; Oshtrakh, M.I., Grokhovsky, V.I., Petrova, E.V., Larionov, M.Yu., Uymina, K.A., Semionkin, V.A., Abramova, N.V., Study of meteorites using Mössbauer spectroscopy with high velocity resolution (2008) Proceedings of the international conference "mössbauer Spectroscopy in Materials Science 2008, 1070, pp. 131-139. , M. Mashlan, R. Zboril AIP Conference Proceedings, Melville, New York; Oshtrakh, M.I., Semionkin, V.A., Milder, O.B., Novikov, E.G., Mössbauer spectroscopy with high velocity resolution: An increase of analytical possibilities in biomedical research (2009) J. Radioanal. Nucl. Chem, 281, pp. 63-67; Oshtrakh, M.I., Grokhovsky, V.I., Petrova, E.V., Larionov, M.Yu., Goryunov, M.V., Semionkin, V.A., Mössbauer spectroscopy with a high velocity resolution applied for the study of meteoritic iron-bearing minerals (2013) J. Mol. Struct, 1044, pp. 268-278; Oshtrakh, M.I., Ushakov, M.V., Senthilkumar, B., Kalai Selvan, R., Sanjeeviraja, C., Felner, I., Semionkin, V.A., Study of NiFe2O4 Nanoparticles Using Mössbauer Spectroscopy with a High Velocity Resolution (2013) Hyperfine Interact, 219, pp. 7-12; Oshtrakh, M.I., Maksimova, A.A., Goryunov, M.V., Yakovlev, G.A., Petrova, E.V., Larionov, M.Yu., Grokhovsky, V.I., Semionkin, V.A., Mössbauer spectroscopy with a high velocity resolution: Advances in the study of meteoritic iron-bearing minerals (2015) Proceedings of the Workshop on the Modern Analytical Methods Applied to Earth and Planetary Sciences, pp. 43-86. , Ed. A. Gucsik. The MicroMatLab Kft Hungary Sopron; Rubin, A.E., Mineralogy of meteorite groups (1997) Meteor. Planet. Sci, 32, pp. 231-247; Scorzelli, R.B., Application of the Mössbauer effect to the study of meteorites-A review (1991) Hyperfine Interact, 66, pp. 249-258; Semionkin, V.A., Oshtrakh, M.I., Milder, O.B., Novikov, E.G., A high velocity resolution Mössbauer spectrometric system for biomedical research (2010) Bull. Rus. Acad. Sci.: Phys, 74, pp. 416-420; Valderruten, J.F., Alcazar, G.A.P., Greneche, J.M., Study of Fe-Ni alloys produced by mechanical alloying (2006) Phys., B Cond. Mat, 384, pp. 316-318; Vincze, I., Campbell, I.A., Meyer, A.J., Hyperfine field and magnetic moments in b.c.c (1974) Fe-Co and Fe-Ni. Solid State Commun, 15, pp. 1495-1499</td>
					</tr>
										<tr>
						<td class="gar">Correspondence Address</td>
						<td>Oshtrakh, M.I.; Department of Physical Techniques and Devices for Quality Control, Institute of Physics and Technology, Ural Federal UniversityRussian Federation; email: oshtrakh@gmail.com</td>
					</tr>
										<tr>
						<td class="gar">Publisher</td>
						<td>E. Schweizerbart'sche Verlagsbuchhandlung</td>
					</tr>
										<tr>
						<td class="gar">Language of Original Document</td>
						<td>English</td>
					</tr>
										<tr>
						<td class="gar">Abbreviated Source Title</td>
						<td>Eur. J. Mineral.</td>
					</tr>
										<tr>
						<td class="gar">Source</td>
						<td>Scopus</td>
					</tr>
								</tbody>
			</table>
		</dd>
			</dl>

</div>
Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84989939265&doi=10.1127%2fejm%2f2016%2f0028-2545&partnerID=40&md5=be2d2be02e3b4f8950f3db4eb5dd9273
Affiliations	Department of Physical Techniques and Devices for Quality Control, Institute of Physics and Technology, Ural Federal University, Ekaterinburg, Russian Federation; Department of Experimental Physics, Institute of Physics and Technology, Ural Federal University, Ekaterinburg, Russian Federation; Department of Theoretical Physics and Applied Mathematics, Institute of Physics and Technology, Ural Federal University, Ekaterinburg, Russian Federation
Author Keywords	Co); Co) and γ-Fe(Ni; Co) Phases; Iron Meteorites; Maghemite And Goethite; Magnetite; Mössbauer spectroscopy; Siderite; Weathering; α-Fe(Ni; α2-Fe(Ni
References	Baldokhin, Yu.V., Tcherdyntsev, V.V., Kaloshkin, S.D., Kochetov, G.A., Pustov, Y.A., Transformations and fine magnetic structure of mechanically alloyed Fe-Ni alloys (1999) J. Mag. Mag. Mater, 203, pp. 313-315; Buchwald, V.F., (1975) Handbook of Iron Meteorites, p. 1418. , University of California Press Berkeley; Dideriksen, K., Frandsen, C., Bovet, N., Wallace, A.F., Sel, O., Arbour, T., Navrotsky, A., Banfield, J.F., Formation and transformation of a short range ordered iron carbonate precursor (2015) Geochim. Cosmochim. Acta, 164, pp. 94-109; Dos Santos, E., Gattacceca, J., Rochette, P., Scorzelli, R.B., Fillion, G., Magnetic hysteresis properties and 57Fe Mössbauer spectroscopy of iron and stony-iron meteorites: Implications for mineralogy and thermal history (2015) Phys. Earth Planet. Inter, 242, pp. 50-64; Dunlap, R.A., A Mössbauer effect investigation of the enstatite chondrite from Abee, Canada (1997) Hyperfine Interact, 110, pp. 209-215; Goldstein, J.I., Scott, E.R.D., Chabot, N.L., Iron meteorites: Crystallization, thermal history, parent bodies, and origin (2009) Chem. Erde, 69, pp. 293-325; Goodman, B.A., (1994) Clay Mineralogy: Spectroscopic and Chemical Determinative Methods, pp. 68-119. , ed. Wilson, M.J Chapman & Hall, London; Grady, M., Pratesi, G., Moggi Cecchi, V., (2014) Atlas of Meteorites, p. 384. , Cambridge University Press Cambridge; Grokhovsky, V.I., Oshtrakh, M.I., Milder, O.B., Semionkin, V.A., Mössbauer spectroscopy of iron meteorite dronino and products of its corrosion (2005) Hyperfine Interact, 166, pp. 671-677; Grokhovsky, V.I., Zhiganova, E.V., Larionov, M.Yu., Uimina, K.A., Oshtrakh, M.I., Mössbauer spectroscopy with high velocity resolution in the meteorites study (2008) The Phys. Metals Metallogr, 105, pp. 177-187; Grokhovsky, V.I., Oshtrakh, M.I., Petrova, E.V., Larionov, M.Yu., Uymina, K.A., Semionkin, V.A., Mössbauer spectroscopy with high velocity resolution in the study of iron-bearing minerals in meteorites (2009) Eur. J. Mineral, 21, pp. 51-63; Maitte, B., Jorand, F.P.A., Grgic, D., Abdelmoula, M., Carteret, C., Remineralization of ferrous carbonate from bioreduction of natural goethite in the Lorraine iron ore (Minette) by Shewanella putrefaciens (2015) Chem. Geol, 412, pp. 48-58; Murad, E., Mössbauer spectroscopy of clays, soils and their mineral constituents (2010) Clay Mineral, 45, pp. 413-430; Oshtrakh, M.I., Semionkin, V.A., Mössbauer spectroscopy with a high velocity resolution: Advances in biomedical, pharmaceutical, cosmochemical and nanotechnological research (2013) Spectrochim. Acta, Part A: Molec. Biomolec. Spectroscopy, 100, pp. 78-87; Oshtrakh, M.I., Grokhovsky, V.I., Petrova, E.V., Larionov, M.Yu., Uymina, K.A., Semionkin, V.A., Abramova, N.V., Study of meteorites using Mössbauer spectroscopy with high velocity resolution (2008) Proceedings of the international conference "mössbauer Spectroscopy in Materials Science 2008, 1070, pp. 131-139. , M. Mashlan, R. Zboril AIP Conference Proceedings, Melville, New York; Oshtrakh, M.I., Semionkin, V.A., Milder, O.B., Novikov, E.G., Mössbauer spectroscopy with high velocity resolution: An increase of analytical possibilities in biomedical research (2009) J. Radioanal. Nucl. Chem, 281, pp. 63-67; Oshtrakh, M.I., Grokhovsky, V.I., Petrova, E.V., Larionov, M.Yu., Goryunov, M.V., Semionkin, V.A., Mössbauer spectroscopy with a high velocity resolution applied for the study of meteoritic iron-bearing minerals (2013) J. Mol. Struct, 1044, pp. 268-278; Oshtrakh, M.I., Ushakov, M.V., Senthilkumar, B., Kalai Selvan, R., Sanjeeviraja, C., Felner, I., Semionkin, V.A., Study of NiFe2O4 Nanoparticles Using Mössbauer Spectroscopy with a High Velocity Resolution (2013) Hyperfine Interact, 219, pp. 7-12; Oshtrakh, M.I., Maksimova, A.A., Goryunov, M.V., Yakovlev, G.A., Petrova, E.V., Larionov, M.Yu., Grokhovsky, V.I., Semionkin, V.A., Mössbauer spectroscopy with a high velocity resolution: Advances in the study of meteoritic iron-bearing minerals (2015) Proceedings of the Workshop on the Modern Analytical Methods Applied to Earth and Planetary Sciences, pp. 43-86. , Ed. A. Gucsik. The MicroMatLab Kft Hungary Sopron; Rubin, A.E., Mineralogy of meteorite groups (1997) Meteor. Planet. Sci, 32, pp. 231-247; Scorzelli, R.B., Application of the Mössbauer effect to the study of meteorites-A review (1991) Hyperfine Interact, 66, pp. 249-258; Semionkin, V.A., Oshtrakh, M.I., Milder, O.B., Novikov, E.G., A high velocity resolution Mössbauer spectrometric system for biomedical research (2010) Bull. Rus. Acad. Sci.: Phys, 74, pp. 416-420; Valderruten, J.F., Alcazar, G.A.P., Greneche, J.M., Study of Fe-Ni alloys produced by mechanical alloying (2006) Phys., B Cond. Mat, 384, pp. 316-318; Vincze, I., Campbell, I.A., Meyer, A.J., Hyperfine field and magnetic moments in b.c.c (1974) Fe-Co and Fe-Ni. Solid State Commun, 15, pp. 1495-1499
Correspondence Address	Oshtrakh, M.I.; Department of Physical Techniques and Devices for Quality Control, Institute of Physics and Technology, Ural Federal UniversityRussian Federation; email: oshtrakh@gmail.com
Publisher	E. Schweizerbart'sche Verlagsbuchhandlung
Language of Original Document	English
Abbreviated Source Title	Eur. J. Mineral.
Source	Scopus