Follow
Saneyuki Ohno
Title
Cited by
Cited by
Year
Inducing High Ionic Conductivity in the Lithium Superionic Argyrodites Li6+xP1–xGexS5I for All-Solid-State Batteries
MA Kraft, S Ohno, T Zinkevich, R Koerver, SP Culver, T Fuchs, ...
Journal of the American Chemical Society 140 (47), 16330-16339, 2018
3782018
Phase Boundary Mapping to Obtain n-type Mg 3 Sb 2-Based Thermoelectrics
S Ohno, K Imasato, S Anand, H Tamaki, SD Kang, P Gorai, HK Sato, ...
Joule 2 (1), 141-154, 2018
3102018
Grain boundary dominated charge transport in Mg 3 Sb 2-based compounds
JJ Kuo, SD Kang, K Imasato, H Tamaki, S Ohno, T Kanno, GJ Snyder
Energy & Environmental Science 11 (2), 429-434, 2018
2792018
Visualization of the interfacial decomposition of composite cathodes in argyrodite-based all-solid-state batteries using time-of-flight secondary-ion mass spectrometry
F Walther, R Koerver, T Fuchs, S Ohno, J Sann, M Rohnke, WG Zeier, ...
Chemistry of materials 31 (10), 3745-3755, 2019
2702019
Band engineering in Mg 3 Sb 2 by alloying with Mg 3 Bi 2 for enhanced thermoelectric performance
K Imasato, SD Kang, S Ohno, GJ Snyder
Materials Horizons 5 (1), 59-64, 2018
2062018
Materials design of ionic conductors for solid state batteries
S Ohno, A Banik, GF Dewald, MA Kraft, T Krauskopf, N Minafra, P Till, ...
Progress in Energy 2 (2), 022001, 2020
1672020
Experimental assessment of the practical oxidative stability of lithium thiophosphate solid electrolytes
GF Dewald, S Ohno, MA Kraft, R Koerver, P Till, NM Vargas-Barbosa, ...
Chemistry of Materials 31 (20), 8328-8337, 2019
1552019
Enhancement of average thermoelectric figure of merit by increasing the grain-size of Mg3. 2Sb1. 5Bi0. 49Te0. 01
T Kanno, H Tamaki, HK Sato, SD Kang, S Ohno, K Imasato, JJ Kuo, ...
Applied Physics Letters 112 (3), 2018
1502018
Achieving zT> 1 in Inexpensive Zintl Phase Ca9Zn4+xSb9 by Phase Boundary Mapping
S Ohno, U Aydemir, M Amsler, JH Pöhls, S Chanakian, A Zevalkink, ...
Advanced Functional Materials 27 (20), 1606361, 2017
1502017
Comparing the Descriptors for Investigating the Influence of Lattice Dynamics on Ionic Transport Using the Superionic Conductor Na3PS4–xSex
T Krauskopf, S Muy, SP Culver, S Ohno, O Delaire, Y Shao-Horn, ...
Journal of the American Chemical Society 140 (43), 14464-14473, 2018
1412018
Observation of chemomechanical failure and the influence of cutoff potentials in all-solid-state Li–S batteries
S Ohno, R Koerver, G Dewald, C Rosenbach, P Titscher, D Steckermeier, ...
Chemistry of Materials 31 (8), 2930-2940, 2019
1262019
How certain are the reported ionic conductivities of thiophosphate-based solid electrolytes? An interlaboratory study
S Ohno, T Bernges, J Buchheim, M Duchardt, AK Hatz, M Kraft, H Kwak, ...
ACS Energy Letters 5, 910-915, 2020
1162020
Further Evidence for Energy Landscape Flattening in the Superionic Argyrodites Li6+xP1–xMxS5I (M = Si, Ge, Sn)
S Ohno, B Helm, T Fuchs, G Dewald, MA Kraft, SP Culver, A Senyshyn, ...
Chemistry of Materials 31 (13), 4936-4944, 2019
1152019
Linking solid electrolyte degradation to charge carrier transport in the thiophosphate‐based composite cathode toward solid‐state lithium‐sulfur batteries
S Ohno, C Rosenbach, GF Dewald, J Janek, WG Zeier
Advanced Functional Materials 31 (18), 2010620, 2021
822021
Observation of valence band crossing: the thermoelectric properties of CaZn 2 Sb 2–CaMg 2 Sb 2 solid solution
M Wood, U Aydemir, S Ohno, GJ Snyder
Journal of Materials Chemistry A 6 (20), 9437-9444, 2018
772018
Energy storage materials for solid‐state batteries: design by mechanochemistry
R Schlem, CF Burmeister, P Michalowski, S Ohno, GF Dewald, A Kwade, ...
Advanced Energy Materials 11 (30), 2101022, 2021
742021
Influence of crystallinity of lithium thiophosphate solid electrolytes on the performance of solid‐state batteries
S Wang, W Zhang, X Chen, D Das, R Ruess, A Gautam, F Walther, ...
Advanced Energy Materials 11 (24), 2100654, 2021
692021
Lithium argyrodite as solid electrolyte and cathode precursor for solid‐state batteries with long cycle life
S Wang, M Tang, Q Zhang, B Li, S Ohno, F Walther, R Pan, X Xu, C Xin, ...
Advanced Energy Materials 11 (31), 2101370, 2021
682021
Insights into the Lithium Sub-structure of Superionic Conductors Li3YCl6 and Li3YBr6
R Schlem, A Banik, S Ohno, E Suard, WG Zeier
Chemistry of Materials 33 (1), 327-337, 2021
672021
Improving the thermoelectric performance in Mg3+ xSb1. 5Bi0. 49Te0. 01 by reducing excess Mg
K Imasato, S Ohno, SD Kang, GJ Snyder
APL Materials 6 (1), 2018
662018
The system can't perform the operation now. Try again later.
Articles 1–20