K. Amine scite author profile

The spinel LiMn1.5Ni0.5O4 has been prepared at low temperature using a new sol‐gel process. X‐ray diffraction analysis reveals that the obtained material presents a cubic spinel structure with a unit cell parameter lower than that of stoichiometric LiMn2O4 . X‐ray photoelectron spectroscopy confirms the divalent state of doped nickel in the material. Furthermore, LiMn1.5Ni0.5O4 compound can intercalate a second lithium both chemically and electrochemically, leading to the formation of a new Li2Mn1.5Ni0.5O4 material with the same cubic spinel structure. This material presents only one plateau at around 3 V vs. normalLi/Li+ with a large discharge capacity of 160 mAh/g and fairly good cyclability. This result is in contrast to the undoped Li2Mn2O4 , where two plateaus at 4 and 3 V are observed because of the occurrence of a structural transition caused by the Jahn‐Teller effect. The structure and the electrochemical behavior of Li1+xMn1.5Ni0.5O4 are investigated and compared to those of LiMn1.5Fe0.5O4 material prepared by the same sol‐gel process.

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Preparation and electrochemical investigation of LiMn2 − xMexO4 (Me: Ni, Fe, and x = 0.5, 1) cathode materials for secondary lithium batteries

Amine¹,

Tukamoto²,

Yasuda³

et al. 1997

Journal of Power Sources

342

180

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Surface modification of LiNi0.5Mn1.5O4 by ZrP2O7 and ZrO2 for lithium-ion batteries

Wu¹,

Belharouak²,

Abouimrane³

et al. 2010

Journal of Power Sources

244

122

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K. Amine

Evolution of redox couples in Li- and Mn-rich cathode materials and mitigation of voltage fade by reducing oxygen release

Improved lithium manganese oxide spinel/graphite Li-ion cells for high-power applications

A New Three‐Volt Spinel Li1 + x Mn1.5Ni0.5 O 4 for Secondary Lithium Batteries

Preparation and electrochemical investigation of LiMn2 − xMexO4 (Me: Ni, Fe, and x = 0.5, 1) cathode materials for secondary lithium batteries

Surface modification of LiNi0.5Mn1.5O4 by ZrP2O7 and ZrO2 for lithium-ion batteries

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