Tomoyuki Komori scite author profile

Tomoyuki Komori

2Publications

5Citation Statements Received

97Citation Statements Given

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Panasonic (Japan)

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Essential structural and experimental descriptors for bulk and grain boundary conductivities of Li solid electrolytes

Tanaka

Komori

et al. 2020

Science and Technology of Advanced Materials

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We present a computational approach for identifying the important descriptors of the ionic conductivities of lithium solid electrolytes. Our approach discriminates the factors of both bulk and grain boundary conductivities, which have been rarely reported. The effects of the interrelated structural (e.g. grain size, phase), material (e.g. Li ratio), chemical (e.g. electronegativity, polarizability) and experimental (e.g. sintering temperature, synthesis method) properties on the bulk and grain boundary conductivities are investigated via machine learning. The data are trained using the bulk and grain boundary conductivities of Li solid conductors at room temperature. The important descriptors are elucidated by their feature importance and predictive performances, as determined by a nonlinear XGBoost algorithm: (i) the experimental descriptors of sintering conditions are significant for both bulk and grain boundary, (ii) the material descriptors of Li site occupancy and Li ratio are the prior descriptors for bulk, (iii) the density and unit cell volume are the prior structural descriptors while the polarizability and electronegativity are the prior chemical descriptors for grain boundary, (iv) the grain size provides physical insights such as the thermodynamic condition and should be considered for determining grain boundary conductance in solid polycrystalline ionic conductors.

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Enhancement of the rate capabilities for all-solid-state batteries through the surface oxidation of sulfide solid electrolytes

et al. 2020

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Tomoyuki Komori

Essential structural and experimental descriptors for bulk and grain boundary conductivities of Li solid electrolytes

Enhancement of the rate capabilities for all-solid-state batteries through the surface oxidation of sulfide solid electrolytes

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