Magnetic studies on Layered solid solution Lix(Ni0.4Mn0.6)2-xO2

Kōichi Nakao; Tatsuya Nakamura; Yoshihiro Yamada; Nobuharu Koshiba

doi:10.1088/1757-899x/18/12/122003

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Magnetic studies on Layered solid solution Li_x(Ni_0.4Mn_0.6)_2-xO₂

Kōichi Nakao Tatsuya Nakamura Yoshihiro Yamada Nobuharu Koshiba

Year: 2011 Journal: IOP Conference Series Materials Science and Engineering Vol: 18 (12)Pages: 122003-122003 Publisher: IOP Publishing

DOI: 10.1088/1757-899x/18/12/122003

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Abstract

Lix(Ni0.4Mn0.6)2-xO2 (1.09≤x≤1.23) were prepared by the solid-state reaction using LiOH and coprecipitated mixed hydroxide as raw materials. All the compounds have a layered rock-salt structure, and the cation mixing degree (Ni2+ occupancy in the Li-layer) decreases with an increase in x. From the low-temperature magnetic measurement, they all have negative Weiss temperature and spontaneous magnetization, that is, they are ferromagnetic materials. Both the Curie temperature and the spontaneous magnetization at 4.2K decrease with an increase in x. These magnetic variations are attributed to the lowering of the cation mixing degree: the magnetic interaction network turns to two-dimensional one with the loss of the inert-layer coupling. These situations may be considered semi-quantitatively using the ferromagnetic cluster model. Additionally, the cation mixing degree has an influence on their electrochemical properties such as cycle fading and rate capability.

Keywords:

Ferromagnetism Mixing (physics) Curie temperature Magnetization Degree (music) Materials science Hydroxide Coupling (piping) Salt (chemistry) Condensed matter physics Chemistry Magnetic field Inorganic chemistry Metallurgy Physical chemistry Physics

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Magnetic studies on Layered solid solution Li_x(Ni_0.4Mn_0.6)_2-xO₂

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