High-Temperature Structural Evolution of the Disordered LiMn sub(1.5)Ni sub(0.5)O sub(4)

In this work, we present our recent results about the changes induced on a crystalline bulk LiMn sub(1.5)Ni sub(0.5)O sub(4) disordered cubic spinel phase by thermal treatments carried out under different back atmospheres (vacuum and air). Our aim is to describe the structural changes induced by tem...

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Veröffentlicht in:	Journal of the American Ceramic Society 2016-05, Vol.99 (5), p.1815-1822
Hauptverfasser:	Vitucci, Francesco M, Paolone, Annalisa, Palumbo, Oriele, Greco, Giorgia, Lombardo, Lucia, Kontje, Melanie, Latini, Alessandro, Panero, Stefania, Brutti, Sergio
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Sprache:	eng
Schlagworte:	Alterations Cooling Heat treatment Heating Nickel Oxygen Spinel Spontaneous
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container_title	Journal of the American Ceramic Society
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creator	Vitucci, Francesco M Paolone, Annalisa Palumbo, Oriele Greco, Giorgia Lombardo, Lucia Kontje, Melanie Latini, Alessandro Panero, Stefania Brutti, Sergio
description	In this work, we present our recent results about the changes induced on a crystalline bulk LiMn sub(1.5)Ni sub(0.5)O sub(4) disordered cubic spinel phase by thermal treatments carried out under different back atmospheres (vacuum and air). Our aim is to describe the structural changes induced by temperature in various conditions both on the long range (by means of XRD) and on the short range around Mn/Ni metal sites (by means of EXAFS) and to investigate the reversible oxygen loss and adsorption upon heating and cooling, respectively. In summary, the LiMn sub(1.5)Ni sub(0.5)O sub(4) phase suffers large structural modifications above 650 degree C both under vacuum and air. These alterations are closely related to the occurrence of large oxygen vacancies in the anionic sublattice due to spontaneous oxygen loss via the gas phase. Apparently, local and long-range distortions from the pristine disordered cubic spinel structure are completely reversible in air upon cooling from high temperature, whereas under vacuum, the structural alterations are permanent.
doi_str_mv	10.1111/jace.14166
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Our aim is to describe the structural changes induced by temperature in various conditions both on the long range (by means of XRD) and on the short range around Mn/Ni metal sites (by means of EXAFS) and to investigate the reversible oxygen loss and adsorption upon heating and cooling, respectively. In summary, the LiMn sub(1.5)Ni sub(0.5)O sub(4) phase suffers large structural modifications above 650 degree C both under vacuum and air. These alterations are closely related to the occurrence of large oxygen vacancies in the anionic sublattice due to spontaneous oxygen loss via the gas phase. 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subjects	Alterations Cooling Heat treatment Heating Nickel Oxygen Spinel Spontaneous
title	High-Temperature Structural Evolution of the Disordered LiMn sub(1.5)Ni sub(0.5)O sub(4)
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