T. Yoda scite author profile

Hollow-structured LiMn 2 O 4 crystals are grown in molten KCl (flux) for the first time via an oxidation reaction of metallic Mn followed by a lithiation reaction. Characterization of the formation process, which is achieved using thermogravimetric differential thermal analysis, X-ray diffraction, and scanning electron microscopy observation, reveals that the hollow structures are formed via a mechanism analogous to the microscale Kirkendall effect, which results from the difference between the solid-state diffusion rates of the core materials and the rate of O 2 diffusion through the shell at elevated temperatures occurring during oxidation. Interestingly, the development of well-defined crystal facets is observed on the surfaces of the LiMn 2 O 4 crystals, implying that the crystal growth is driven by supersaturation in the same manner as the flux growth. We also examine two possible approaches to reduce the volume of the inner space in the crystal: crystal growth under O 2 flow for enhancement of the O 2 diffusion and insertion of a Co and Ni layer between Mn and the substrate to induce the formation of the LiNi 1/3 Co 1/3 Mn 1/3 O 2 phase.

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Flux growth of patterned LiCoO₂ crystal arrays directly on a Pt substrate in molten LiNO₃

Yoda

Zettsu

Onodera

et al. 2015

RSC Adv.

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T. Yoda

Fabrication and laser performance of polycrystal and single crystal Nd:YAG by advanced ceramic processing

Growth of hollow-structured LiMn₂O₄crystals starting from Mn metal in molten KCl through the microscale Kirkendall effect

Flux growth of patterned LiCoO₂ crystal arrays directly on a Pt substrate in molten LiNO₃

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T. Yoda

Fabrication and laser performance of polycrystal and single crystal Nd:YAG by advanced ceramic processing

Growth of hollow-structured LiMn2O4crystals starting from Mn metal in molten KCl through the microscale Kirkendall effect

Flux growth of patterned LiCoO2 crystal arrays directly on a Pt substrate in molten LiNO3

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Growth of hollow-structured LiMn₂O₄crystals starting from Mn metal in molten KCl through the microscale Kirkendall effect

Flux growth of patterned LiCoO₂ crystal arrays directly on a Pt substrate in molten LiNO₃