<2012>
Lubrication mechanism of concentrated polymer brushes in solvents: Effect of solvent viscosity.
A. Nomura, K. Ohno, T. Fukuda, T. Sato, Y. Tsujii,
Polym. Chem, 3, 148–153 (2012)
<2011>
Novel solid-state polymer electrolyte of colloidal crystal decorated with ionic-liquid polymer brush.
T. Sato, T. Morinaga, S. Marukane, T. Narutomi, T. Igarashi, Y. Kawano, K. Ohno, T. Fukuda, Y. Tsujii,
Adv. Mater. 23, 4868–4872 (2011).
A thin layer including a carbon material improves the rate capability of an electric double layer capacitor.
Takaya. Sato, Shoko. Marukane, T. Morinaga, Taichi Uemura, Kunihiro.Fukumoto, Satoshi.Yamazaki,
journal of Power Sources, 196, 2835-2840 (2011).
<2010>
SiO2 film deposition on the inner wall of a narrow polymer tube by a capacitively coupled μplasma.
H. Yoshiki, T. Mitsui, T. Sato, T. Morinaga, S. Marukane, Thin Solid Films, 518 3526?3530 (2010).
Fabrication of LiFePO4/carbon composites by glass powder crystallization processing and their battery performance.
Tsuyoshi Honma, Keita Hirose, Takayuki Komatsu, Takaya Sato, Shoko Marukane,
Journal of Non-Crystalline Solids (2010), corrected proof appeared in article in press on the web of Science Direct, Elsevier publisher.
<2007>
High rate performance of a lithium polymer battery using a novel ionic liquid
polymer composite.
(高出力特性を有するイオン液体ポリマーリチウムイオン電池)
T. Sato, S. Marukane, T. Narutomi, T, Akao,
J. Power Sources, 164, 390 (2007).
<2006>
Ionic liquids containing the tetrafluoroborate anion have the best performance
and stability for electric double layer capacitor applications.
(電気二重層キャパシタの実用性能に最も優れるイオン液体は四フッ化ホウ素アニオンを
含有するイオン液体である)
K. Yuyama, G, Masuda, H. Yoshida, T. Sato,
J. Power Sources, 162, 1401 (2006).
Studying a phenomenon during overcharge of a lithium-ion battery with
methacrylate additives for the gel electrolyte.
(メタクリレートを含有するゲル電解質電池の過充電挙動に関する研究)
R. Nozu, M. Nakamura, K. Banno, T. Maruo, T. Sato,
J. Electrochem. Soc. 153, A1031 (2006).
<2005>
High energy-density capacitor based on ammonium salt type ionic liquids and
their mixing effect by propylene carbonate.
(アンモニウム塩型イオン液体を用いた高エネルギーキャパシタ)
Y-J. Kim, Y. Matsuzawa, S. Ozaki, K-C. Park, C. Kim, M. Endo, H. Yoshida,
G.Masuda, T. Sato and M. S. Dresselhaus,
J. Electrochem. Soc., 152, A715, (2005).
New design for a safe-lithium ion gel polymer battery.
(安全性の高いリチウムイオンゲルポリマー電池の新しい設計)
T. Sato, K. Banno, T. Maruo, S. Marukane,
J. Power Sources, 152, 264 (2005).
イオン性液体とその蓄電デバイスへの応用
佐藤 貴哉、吉田 浩、繊維学会誌,61, No.3, P-75 (2005).
<2004>
イオン性液体を用いた電気二重層キャパシタ
佐藤 貴哉、Electrochemistry, 72, 711 (2004).
Ionic liquids containing additives as electrolytes for lithium ion cells.
(添加剤を含有するイオン性液体のリチウムイオン電池への応用)
T.Sato, T. Maruo, S. Marukane, K. Takagi,
J. Power Sources, 138, 253 (2004).
Electrochemical properties of novel ionic liquids for electric double layer
capacitor applications.
(新しいイオン性液体の電気化学特性と電気二重層キャパシタへの応用)
T. Sato, G. Masuda, K. Takagi, Electrochemica Acta, 49,3603 (2004).
New application of polyurethane as porous hydrogelcarrier formicroorganisms of
waste water treatment.
(排水処理用微生物担体としての多孔性ポリウレタンゲルの新しい利用方法)
T. Sato, T. Uehara, H. Yoshida, Cellular Polymers, 23, 145 (2004).