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Abstract
We have investigated the chemical lithiation in 70 nm cubic-shaped magnetite nanoparticles with varying degree of lithiation x = 0, 0.5, 1, 1.5. The induced changes on structure and magnetic properties were investigated with X-ray scattering techniques along with electron microscopy and magnetic measurements. The results indicate that a structural transformation from spinel to rock salt phase occurs above a critical limit for the lithium concentration (xc), which is determined to be between 0.5< xc≤1 for Fe3–δO4. Magnetization measurements confirm the formation of the LiFeO2 phase with its distinct antiferromagnetic behaviour. Upon lithiation, exchange bias measurements reveal a shift in the hysteresis loops with an asymmetry, which can be attributed to the formation of mosaic-like LiFeO2 subdomains and cationic disorder. The combined structural, spectral-imaging and magnetization characterization techniques enabled us to identify the phases and their distribution during in the lithiation process.
Supplementary materials
Title
Additional characterization information
Description
Additional characterization information on particle size and size distribution, HRTEM, Ri- etveld and PDF refinements, Raman spectra, EELS, ang magnetization curves.
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