Publications

地球温暖化や化石燃料の枯渇等の問題から、新エネルギーの早期普及と低環境負荷技術の確立が強く望まれています。
当講座では、バッテリー・燃料電池・ガスセンサー・リアクターなどの電気化学デバイスを高効率化するための「マテリアルとシステムの設計」を行っています。最近では、カーボンニュートラルなバイオマス資源に着目し、低環境負荷でエネルギを取り出す研究を行っています。

2020

Nagao M, Kobayashi K, Jin Y, Maruyama I, Hibino T.
Ionic conductive and photocatalytic properties of cementitious materials: calcium silicate hydrate and calcium aluminoferrite
JOURNAL OF MATERIALS CHEMISTRY A : advance article 2020

2014

Nagao M, Kabayashi K, Hibino T.
Low-Temprerature Sintering of Yttria-Stabilized Zirconia Using Bismuth-Vanadium Oxides as a Sintering Aid at 800°C
CHEMISTRY LETTERS 43(12): 1887-1889 DEC 2014

2013

Hibino T, Kabayashi K, Fujita S.
Design of proton-conducting Sn0.95Al0.05P2O7 with a mesoporous structure
JOURNAL OF MATERIALS CHEMISTRY A 1 (42): 13082-13088 DEC 2013
Hibino T, Kobayashi K.
Hydroxide ion conduction in molybdenum(Ⅵ)-doped tin pyrophosphate at intermediate temperatures
JOURNAL OF MATERIALS CHEMISTRY A 1 (23): 6934-6941 MAY 2013

2012

Hibino T, Shen YB, Nishida M, et al.
Hydroxide ion conducting antimony(V)-doped tin pyrophosphate electrolyte for intermediate-temperature alkaline fuel cells
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 51 (43): 10786-10790 OCT 2012
Shen YB, Kojima K, Nishida M, et al.
Proton conduction in A0.5B0.5P2O7 compounds at intermediate temperatures
JOURNAL OF MATERIALS CHEMISTRY 22 (30): 14907-14915 JUL 2012
Sato Y, Shen YB, Nishida M, et al.
Proton conduction in non-doped and acceptor-doped metal pyrophosphate (MP2O7) composite ceramics at intermediate temperatures
JOURNAL OF MATERIALS CHEMISTRY 22 (9): 3973-3981 MAR 2012

2011

Hibino T
Intermediate-temperature proton conductors and their applications to energy and environmental devices
JOURNAL OF THE CERAMIC SOCIETY OF JAPAN 119 (9): 677-686 SEP 2011
Shen YB, Nishida M, Kanematsu W, et al.
Synthesis and characterization of dense SnP2O7-SnO2 composite ceramics as intermediate-temperature proton conductors
JOURNAL OF MATERIALS CHEMISTRY 21 (3): 663-670 JAN 2011

2010

Jin YC, Hibino T
A Proton-conducting composite membrane Sn0.95Al0.05P2O7 and polystyrene-b-poly(ethylene/propylene)-b-polystyrene
ELECTROCHIMICA ACTA 55 (28): 8371-8375DEC 2010
Jin YC, Yang L, Nishida M, et al.
Partially proton-exchanged WP2O7 with high conductivity at intermediate temperatures
ELECTROCHEMICAL AND SOLID STATE LETTERS 13 (11): B123-B126 NOV 2010
Jin YC, Shen YB, Hibino T
Proton conduction in metal pyrophosphates (MP2O7) at intermediate temperatures
JOURNAL OF MATERIALS CHEMISTRY 20 (30): 6214-6217 AUG 2010
Jin YC, Fujiwara K, Hibino T
High temperature, low humidity proton exchange membrane based on an inorganic-organic hybrid structure
ELECTROCHEMICAL AND SOLID STATE LETTERS 13 (2): B8-B10 FEB 2010

2009

Genzaki K, Heo P, Sano M, et al.
Proton conductivity and solid acidity of Mg-, In-, and Al-doped SnP2O7
JOURNAL OF THE ELECTROCHEMICAL SOCIETY 156 (7): B806-B810 JUL 2009

2008

Heo P, Kajiyama N, Kobayashi K, et al.
Proton conductor in Sn0.95Al0.05P2O7-PBI-PTFE composite membrane
ELECTROCHEMICAL AND SOLID STATE LETTERS 11 (6): B91-B95 JUN 2008
Tomita A, Tachi Y, Hibino T
Blocking of electronic current through a Ce0.9Gd0.1O1.95 electrolyte film by growth of a thin BaCe1-xGdxO3-alpha layer
ELECTROCHEMICAL AND SOLID STATE LETTERS 11 (5): B68-B70 MAY 2008

2007

Tomita A, Kajiyama N, Kamiya T, et al.
Intermediate-temperature proton conduction in Al3+-doped SnP2O7
JOURNAL OF THE ELECTROCHEMICAL SOCIETY 154 (12): B1265-B1269 DEC 2007
Heo P, Nagao M, Kamiya T, et al.
Sn0.9In0.1P2O7-based organic/inorganic composite membranes application to intermediate-temperature fuel cells
JOURNAL OF THE ELECTROCHEMICAL SOCIETY 154 (1): B63-B67 JAN 2007

2006

Nagao M, Kamiya T, Heo P, et al.
Proton conduction in In3+-doped SnP2O7 at intermediate temperatures
JOURNAL OF THE ELECTROCHEMICAL SOCIETY 153 (8): A1604-A1609 AUG 2006
Nagao M, Takeuchi A, Heo P, et al.
A proton-conducting In3+-doped SnP2O7 electrolyte for intermediate-temperature fuel cells
ELECTROCHEMICAL AND SOLID STATE LETTERS 9 (3): A105-A109 MAR 2006
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