1. 学術論文,国際会議Proc.
■Quantitative
Analysis of Crystallinity in an Argyrodite Sulfide-based Solid Electrolyte
Synthesized via Solution Processing
S.
Yubuchi, H. Tsukasaki, A. Sakuda, S. Mori, A. Hayashi, M. Tatsumisago
RSC Adv.,
9, 14465-14471 (2019).
■Synthesis and Electrochemical
Activity of Some Na(Li)-Rich Ruthenium Oxides with the Feasibility to Stabilize
Ru6+
M. Otoyama, Q. Jacquet, A. Ladecola, M. Saubanère, G. Rousse, J-M. Tarascon
Adv.
Energy Mater., 9, 1803674, 1-12
(2019).
■Highly Stable Li/Li3BO3-Li2SO4
Interface and Application to Bulk-Type All-Solid-State Lithium Metal Batteries
K. Nagao, M. Suyama, A. Kato, C. Hotehama, M.
Deguchi, A. Sakuda, A. Hayashi, M. Tatsumisago
ACS Appl. Energy Mater., 2, 3042-3048 (2019).
■Formation of Interfacial Contact
with Ductile Li3BO3-based Electrolytes for Improving
Cyclability in All-Solid-State Batteries
K. Nagao, A. Sakuda, A. Hayashi, M. Tatsumisago
J. Power Sources, 424, 215-219 (2019).
■Ion-exchange Synthesis of Li2NaPS4
from Na3PS4
J. Chen, S. Yubuchi, C. Hotehama, A. Sakuda, A.
Hayashi, M. Tatsumisago
Chem. Lett., 48, 863-865 (2019).
■Amorphous Ni-Rich Li(Ni1-x-yMnxCoy)O2-Li2SO4
Positive Electrode Materials for Bulk-Type All-Oxide Solid-State Batteries
K. Nagao, A. Sakuda, A. Hayashi, H. Tsukasaki,
S. Mori, M. Tatsumisago
Adv. Mater. Interfaces, 6, 1802016, 1-10 (2019).
■Suspension Synthesis of Na3-xPS4-xClx
Solid Electrolytes
M. Uematsu, S. Yubuchi, F. Tsuji, A. Sakuda, A.
Hayashi, M. Tatsumisago
J. Power Sources, 428, 131-135 (2019).
■Mechanochemical Synthesis of Cubic
Rocksalt Na2TiS3 as Novel Active Materials for
All-Solid-State Sodium Secondary Batteries
A. Nasu, M. Otoyama, A. Sakuda, A. Hayashi, M.
Tatsumisago
J. Ceram. Soc. Jpn., 127 (8), 514-517 (2019).
■Mechanochemical
Synthesis and Characterization of Amorphous Li2CN2 as a
Lithium Ion Conductor
T.
Kimura, C. Hotehama, A. Sakuda, A. Hayashi, M. Tatsumisago
J. Ceram.
Soc. Jpn., 127 (8), 518-520 (2019).
■Mechanochemical
Synthesis of Na-Sb Alloy Negative Electrodes and their Application to
All-Solid-State Sodium Batteries
T. Ando,
S. Yubuchi, A. Sakuda, A. Hayashi, M. Tatsumisago
Electrochemistry,
87 (5), 289-293 (2019).
■Exothermal
Mechanisms in the Charged LiNi1/3Mn1/3Co1/3O2
Electrode Layers for Sulfide-based All-Solid-State Lithium Batteries
H.
Tsukasaki, T. Uchiyama, K. Yamamoto, S. Mori, Y. Uchimoto, H. Kowada, A.
Hayashi, M. Tatsumisago
J. Power
Sources, 434, 226714, 1-6 (2019).
■Metastable
Materials for All-Solid-State Batteries
A.
Sakuda, A. Hayashi, M. Tatsumisago
Electrochemistry,
87 (5), 247-250 (2019).
■New
Lithium-Conducting Nitride Glass Li3BN2
M.
Shigeno, K. Nagao, M. Deguchi, C. Hotehama, H. Kowada, A. Sakuda, A. Hayashi, M.
Tatsumisago
Solid
State Ionics, 339, 114985, 1-8
(2019).
■A
Sodium-ion Sulfide Solid Electrolyte with Unprecedented Conductivity at Room
Temperature
A.
Hayashi, N. Masuzawa, S. Yubuchi, F. Tsuji, C. Hotehama, A. Sakuda, M.
Tatsumisago
Nat.
Commun., 10:5266, 1-6 (2019).
■Sulfur-Based
Comosite Electrode with Interconnected Mesoporous Carbon for All-Solid-State
Lithium-Sulfur Batteries
A.
Sakuda, Y. Sato, A. Hayashi, M. Tatsumisago
Energy
Technol., 7, 1900077, 1-5 (2019).
■Ex situ Investigation of Exothermal Behavior and
Structural Changes of the Li3PS4-LiNi1/3Mn1/3Co1/3O2
Electrode Composites
A.
Atarashi, H. Tsukasaki, M. Otoyama, H. Kowada, S. Mori, A. Hayashi, M.
Tatsumisago
Solid State Ionics, 342, 115046, 1-6 (2019).
■Microstructure
and Conductivity of Al-Substituted Li7La3Zr2O12
Cramics with Different Grain Sizes
Y.
Matsuki, K. Noi, K. Suzuki, A. Sakuda, A. Hayashi, M. Tatsumisago
Solid
State Ionics, 342, 115047, 1-6
(2019).
■Dry
Coating of Active Material Particles with Sulfide Solid Electrolytes for an
All-Solid-State Lithium Battery
H. Nakamura, T. Kawaguchi, T. Masuyama, A. Sakuda, T.
Saito, K. Kuratani, S. Ohsaki, S. Watano
J. Power Sources, 448,
227579, 1-10 (2020).
■Operando Confocal Microscopy for Dynamic
Changes of Li+ Ion Conduction Path in Graphite Electrode Layers of
All-Solid-State Batteries
M. Otoyama, H. Kowada, A. Sakuda, M.
Tatsumisago, A. Hayashi
J. Phys. Chem. Lett.,
11, 900-904 (2020).
■Aqueous
Solution Synthesis of Na3SbS4-Na2WS4
Superionic Conductors
S. Yubuchi, A. Ito, N. Masuzawa, A. Sakuda,
A. Hayashi, M. Tatsumisago
J. Mater. Chem. A., 8, 1947-1954 (2020).
■How
Certain Are the Reported Ionic Conductivities of Thiophosphate-Based Solid
Electrolyltes? An Interlaboratory Study
S. Ohno, T. Bernges, J. Buchheim, M.
Duchardt, A.-K. Hatz, M. A. Kraft, H. Kwak, A. L. Santhosha, Z. Liu, N.
Minafra, F. Tsuji, A. Sakuda, R. Schlem, S. Xiong, Z. Zhang, P. Adelhelm, H.
Chen, A. Hayashi, Y. S. Jung, B. V. Lotsch, B. Roling, N. M. Vergas-Barbosa, W.
G. Zeier
ACS Energy Lett., 5, 910-915 (2020).
2. 解説,総説
■全固体における界面形成とキャラクタリゼーション
林 晃敏, 作田 敦, 辰巳砂昌弘
セラミックス,
54 (4), 250-253 (2019).
■ガラスの結晶化を利用した硫化物固体電解質の開発
(Development
of Sulfide Solid Elecrolytes Prepared by Crystallization of Mother Glasses)
林 晃敏, 作田 敦, 辰巳砂昌弘
日本結晶成長学会誌,
46 (1), 46-1-07, 1-7 (2019).
■メカノケミカル法による次世代電池材料の探索
(Development of Next Generation Battery
Materials by Machanochemical Process)
作田 敦,
林 晃敏,
辰巳砂昌弘
粉体工学会誌(J.
Soc. Powder Technol., Japan), 56 (8),
452-458 (2019).
■全固体電池への応用に向けた固体電解質の進展
(Development of Solid Electrolytes for
All-Solid-State Batteries)
林 晃敏, 作田 敦, 辰巳砂昌弘
日本ゴム協会誌, 92 (11), 430-434 (2019).
■実用化が見えてきた全固体リチウム二次電池
作田 敦, 林 晃敏, 辰巳砂昌弘
KEC情報, 252, 14-19 (2019).
3.学術著書
■全固体リチウム電池の開発動向と応用展望(監修:辰巳砂昌弘, 林 晃敏)
辰巳砂昌弘, 林 晃敏(分担執筆)
はじめに,
シーエムシー出版
(2019).
■全固体リチウム電池の開発動向と応用展望(監修:辰巳砂昌弘, 林 晃敏)
辰巳砂昌弘, 林 晃敏(分担執筆)
硫化物ガラス系固体電解質,
シーエムシー出版,
16-23 (2019).
■全固体リチウム電池の開発動向と応用展望(監修:辰巳砂昌弘, 林 晃敏)
林 晃敏(分担執筆)
酸化物ガラス系固体電解質,
シーエムシー出版,
58-65 (2019).
■全固体リチウム電池の開発動向と応用展望(監修:辰巳砂昌弘, 林 晃敏)
作田 敦(分担執筆)
硫化物系固体電解質の微細化・均質分散による電極-電解質界面構築」(LIB用活物質の適用),
シーエムシー出版,
137-144 (2019).
■リチウムイオン電池&全固体電池製造技術 −微粒子&スラリー調整および評価を中心に−(監修:向井孝志)
加藤敦隆, 作田 敦, 林 晃敏, 辰巳砂昌弘(分担執筆)
バルク型全固体電池の構築に向けた高リチウムイオン伝導性硫化物固体電解質の開発と機械的特性評価,
シーエムシー・リサーチ,
235-244 (2019).