1. 学術論文
Preparation of Co-Al and Ni-Al Layered Double Hydroxide
Thin Films by a Sol-Gel Process with Hot Water Treatment
K. Tadanaga, A. Miyata, D.
Ando, N. Yamaguchi and M. Tatsumisago
J. Sol-Gel Sci. Tech., 62 [1] 111-116 (2012).
All-Solid-State Lithium
Secondary Batteries Using
Li2S-P2S5 Solid Electrolytes and LiFePO4 Electrode Particles with Amorphous
Surface Layer
A. Sakuda, H. Kitaura, A. Hayashi, M. Tatsumisago, Y. Hosoda, T. Nagakane and
A. Sakamoto
Chem. Lett., 41 [3] 260-261 (2012).
Hydroxide Ion Conduction in Ni–Al Layered Double Hydroxide
D. Kubo, K. Tadanaga, A. Hayashi and M. Tatsumisago
J. Electroanal. Chem.,
671, 102-105 (2012).
Structure, Ionic Conductivity and Electrochemical Stability
of Li2S–P2S5–LiI Glass and Glass–Ceramic
Electrolytes
S. Ujiie, A. Hayashi and M.
Tatsumisago
Solid State Ionics, 211 [15] 42-45 (2012).
High-Capacity Li2S–Nanocarbon
Composite Electrode for All-Solid-State Rechargeable
Lithium Batteries
M. Nagao, A. Hayashi and M. Tatsumisago
J. Mater. Chem. 22
[19] 10015-10020 (2012).
Effect of Mg/Al Ratio on Hydroxide Ion Conductivity
for Mg–Al Layered Double Hydroxide and Application to Direct Ethanol Fuel Cells
K. Tadanaga, Y. Furukawa, A.
Hayashi and M. Tatsumisago
J. Electrochem. Soc.,
159 [4] B368-B370 (2012).
Invited Paper: Recent Development of Bulk-Type Solid-State
Rechargeable Lithium Batteries with Sulfide Glass-Ceramic Electrolytes
A. Hayashi and M. Tatsumisago
Electron. Mater. Lett. 8 [2] 199-207 (2012).
New Borate Glasses for Ionics
T. Minami
Phys. Chem. Glasses: Eur. J.
Glass Sci. Technol. B 53 [2] 17-26 (2012).
The Research History of Professor
Tsutomu Minami
A. Hayashi
Phys. Chem. Glasses: Eur. J.
Glass Sci. Technol. B 53 [2] 52-60 (2012).
Superionic Glass-Ceramic Electrolytes
for Room-Temperature Rechargeable Sodium Batteries
A. Hayashi, K. Noi, A. Sakuda
and M. Tatsumisago
Nat. Commun., 3,
856:1-5 (2012).
Investigation of Cul-Containing Molybdophosphate
Glasses by Infrared Reflectance Spectroscopy
C. P. E. Varsamis, E. I. Kamitos, T. Minami, N. Machida
J. Phys. Chem. C, 116,
11671-11681 (2012).
All-Solid-State Lithium Secondary Batteries with Metal-Sulfide-Coated
LiCoO2 Prepared by Thermal Decomposition of Dithiocarbamato
Complexes
A. Sakuda, N. Nakamoto, H. Kitaura, A. Hayashi, K. Tadanaga and
M. Tatsumisago
J. Mater. Chem., 22 [30] 15247-15254 (2012).
Fabrication of Favorable Interface between Sulfide Solid Electrolyte and Li Metal Electrode for Bulk-Type
Solid-State Li/S Battery
M. Nagao, A. Hayashi and M. Tatsumisago
Electrochem. Commun., 22
[1] 177-180 (2012).
Preparation of Amorphous TiSx Thin Film Electrodes by the PLD Method and Their Application
to All-Solid-State Lithium Secondary Batteries
T. Matsuyama, A. Sakuda, A. Hayashi, Y. Togawa, S. Mori and M.
Tatsumisago
J. Mater. Sci., 47 [18] 6601-6606 (2012).
Novel Inorganic Materials for Polymer Electrolyte and
Alkaline Fuel Cells
K. Tadanaga
AIP Cont. Proc. 1455, 29-32 (2012).
Mechanochemical Synthesis of BaO-B2O3 Glass and Glass-Ceramic
Phsphor Powders Containing Europium Ions
A. Shinomiya, A. Hayashi, K. Tadanaga and M. Tatsumisago
Phys. Chem. Glasses: Eur. J. Glass Sci. Tech. Part B, 53 [3] 128-131 (2012).
Synthesis of NiS–Carbon Fiber Composites in High-Boiling
Solvent to Improve Electrochemical Performance in All-Solid-State Lithium Secondary
Batteries
K. Aso, A. Hayashi and M. Tatsumisago
Electrochimica Acta, 83, 448-453 (2012).
Amorphous Titanium Sulfide Electrode for
All-Solid-State Rechargeable Lithium Batteries
with High
Capacity
A. Hayashi, T. Matsuyama, A.
Sakuda and M. Tatsumisago
Chem. Lett., 41 [9] 886-888 (2012).
Superionic Glasses and Glass–Ceramics in the Li2S–P2S5
System for All-Solid-State Lithium Secondary Batteries
M. Tatsumisago and A. Hayashi
Solid State Ionics, 225 [4] 342-345
(2012).
Bulk-Type Lithium Metal Secondary Battery with Indium
Thin Layer at Interface between Li Electrode and Li2S-P2S5 Solid Electrolyte
M. Nagao, A. Hayashi and M.
Tatsumisago
Electrochemistry, 80 [10] 734-736 (2012).
Bulk-Type All-Solid-State Lithium Secondary Battery
with Li2S-P2S5 Thin-Film Separator
A. Sakuda, A. Hayashi, T. Ohtomo, S. Hama and M. Tatsumisago
Electrochemistry, 80 [10] 839-841 (2012).
2. 解説・総説
全固体電池への応用にむけたナトリウムイオン伝導性固体電解質の開発
林 晃敏・辰巳砂昌弘
マテリアル インテグレーション、25
[1] 17-21 (2012).
全固体電池の実用化に向けた硫化物ガラス系材料の開発
辰巳砂昌弘
電気ガラス、46号、8-13
(2012).
ガラス系リチウムイオン伝導体開発と全固体電池への応用
辰巳砂昌弘・林 晃敏
化学と工業、65 [5] 393-395 (2012).
全固体電池の最前線 ―いま世界でどこまで進展しているか?
辰巳砂昌弘・林 晃敏
化学、67 [7] 19-23 (2012).
無機材料を用いた全固体アルカリ形燃料電池
忠永清治
ケミカルエンジニヤリング、57 [7] 27-31 (2012).
硫化物固体電解質を用いた高容量バルク型全固体リチウム−硫黄電池
長尾元寛・林 晃敏・辰巳砂昌弘
硫酸と工業、65 [7] 81-88 (2012).
究極の蓄電池
―全固体電池の開発最前線
林 晃敏
りそな中小企業振興財団「かがやき」、24, 27-30 (2012).
全固体電池への応用に向けたイオン伝導ガラスの開発
林 晃敏・辰巳砂昌弘
化学工業、63 [10] 34-38 (2012).
全固体ナトリウム電池にむけた硫化物系ガラスセラミックスの開発
林 晃敏・辰巳砂昌弘
ニューガラス、27 [4] 15-19 (2012).
3. 著書
全固体リチウムイオン二次電池の開発と製造技術(監修:金村聖志)
(著書、分担執筆)
辰巳砂昌弘・林 晃敏
執筆項目「粉体技術による無機固体リチウムイオン二次電池の電極設計」
pp.145-157
サイエンス&テクノロジー
(2012).