Saneyuki Ohno
scholar.google.com
0000-0001-8192-996X
Kyushu University
39 papers found
Refreshing results…
Can Substitutions Affect the Oxidative Stability of Lithium Argyrodite Solid Electrolytes?
Sn Substitution in the Lithium Superionic Argyrodite Li6PCh5I (Ch = S and Se)
Visualizing reaction fronts and transport limitations in solid-state Li-S batteries via operando neutron imaging
Toward Practical Solid-State Lithium–Sulfur Batteries: Challenges and Perspectives
Lithium Argyrodite as Solid Electrolyte and Cathode Precursor for Solid‐State Batteries with Long Cycle Life
Energy Storage Materials for Solid‐State Batteries: Design by Mechanochemistry
Influence of Crystallinity of Lithium Thiophosphate Solid Electrolytes on the Performance of Solid‐State Batteries
Linking Solid Electrolyte Degradation to Charge Carrier Transport in the Thiophosphate‐Based Composite Cathode toward Solid‐State Lithium‐Sulfur Batteries
Insights into the Lithium Sub-structure of Superionic Conductors Li3YCl6 and Li3YBr6
On the underestimated influence of synthetic conditions in solid ionic conductors
Polymer-based hybrid battery electrolytes: Theoretical insights, recent advances and challenges
Analysis of charge carrier transport toward optimized cathode composites for all‐solid‐state Li‐S batteries
Structure and Sodium Ion Transport in Na11+xSn2+x(Sb1−yPy)1−xS12
Enhancing Interfacial Properties of Mg 2 Si‐Based Thermoelectric Joint with Mg 2 SiNi 3 Compound as Electrodes
Materials design of ionic conductors for solid state batteries
How Certain Are the Reported Ionic Conductivities of Thiophosphate-Based Solid Electrolytes? An Interlaboratory Study
Experimental Assessment of the Practical Oxidative Stability of Lithium Thiophosphate Solid Electrolytes
Local Structure and Influence of Sb Substitution on the Structure–Transport Properties in AgBiSe2
Further Evidence for Energy Landscape Flattening in the Superionic Argyrodites Li6+xP1–xMxS5I (M = Si, Ge, Sn)
Visualization of the Interfacial Decomposition of Composite Cathodes in Argyrodite-Based All-Solid-State Batteries Using Time-of-Flight Secondary-Ion Mass Spectrometry
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