In situ neutron powder diffraction study of the reaction M2O3 ↔ M3O4 ↔ MO, M = (Fe0.2Mn0.8): implications for chemical looping with oxygen uncoupling

Norberg, S. T.; Azimi, G.; Hull, S.; Leion, H.

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Royal Society of Chemistry, CrystEngComm, 29(18), p. 5537-5546

DOI: 10.1039/c6ce00784h

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In situ neutron powder diffraction study of the reaction M2O3 ↔ M3O4 ↔ MO, M = (Fe0.2Mn0.8): implications for chemical looping with oxygen uncoupling

Journal article published in 2016 by S. T. Norberg

, G. Azimi, S. Hull, H. Leion

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Abstract

The structural properties of (Fe_0.2Mn_0.8)_xO_y as a function of temperature under differing oxidizing and reducing atmospheres have been investigated using thermal gravimetric analysis and neutron powder diffraction techniques.

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In situ neutron powder diffraction study of the reaction M2O3 ↔ M3O4 ↔ MO, M = (Fe0.2Mn0.8): implications for chemical looping with oxygen uncoupling

Abstract