60.“Carbon Foams Prepared from Polyimide Using Urethane Foam Template,”
M. Inagaki, T. Morishita, A. Kuno, T. Kito, M. Hirano, T. Suwa, and
K. Kusakawa,
Carbon, 42, 497-502 (2004) |
59.“Preparation of Photoactive Anatase-Type TiO2/Silica Gel by Direct Loading Anatase-Type TiO2
Nanoparticles in Acidic Aqueous Solutions by Thermal Hydrolysis,”
M.Hirano, and K. Ota,
J. Mater. Sci. 39, 1841-1844 (2004). |
58.“Preparation and Photocatalytic Performance of Anatase-Mounted Natural
Porous Silica, Pumice, by
Hydrolysis under hydrothermal Conditions,”
X.-Y. Chuan, M.Hirano, and M.Inagaki,
Appl. Catal. B: Environ. 51, 255-260 (2004). |
57.“Direct Formation and Photocatalytic Performance of Anatase (TiO2) / Silica (SiO2)
Composite Nanoparticles,”
M.Hirano, and K. Ota,
J. Am. Ceram. Soc., 87 [8 ] 1567 -1570 (2004). |
56.“Hydrothermal Synthesis of TiO2/SiO2 Composite Nanoparticles and Their Photocatalytic Activities,”
M.Hirano, K. Ota, M.Inagaki, and H. Iwata,
J. Ceram. Soc. Japan, 112, [3] 143-148 (2004). |
55.“Direct Formation of Fe(III)-doped TiO2 (Anatase) by Thermal Hydrolysis and Its
Structural and Optical Properties,”
M.Hirano, T. Joji, M. Inagaki, and H. Iwata,
J. Am. Ceram. Soc., 87 [1] 35-41 (2004). |
54.“Preparation and Performance of Anatase-Loaded Porous Carbon for Water
Purification,”
M. Toyoda, Y. Nanbu, T. Kito, M.Hirano, and M. Inagaki,
Desalination 159, 273-282 (2003). |
53.“Oxygen Storage Capacity, Specific Surface Area, and Pore Size Distribution
of CeO2
-ZrO2 Solid Solutions Directly Formed by Thermal Hydrolysis,”
M. Hirano and A. Suda,
J. Am. Ceram. Soc., 86 [12] 2209-2211 (2003). |
52.“Hydrothermal Synthesis and Phase Stability of New Zircon- and Scheelite-Type
ZrGeO4,”
M. Hirano and H. Morikawa,
Chem. Mater., 15, [13] 2561-66 (2003). |
51.“Effect of Hydrolysis Conditions on the Direct Formation of Nanoparticles
of
Ceria-Zirconia Solid Solutions from Acidic Aqueous Solutions,”
M. Hirano and K. Hirai,
J. Nanoparticle Res., 5, 147-156 (2003). |
50.“Synthesisi of Zinc Gallate Spinel Nanoparticles by Hydrothermal Method
in the Presence of Urea and
their Sintering,”
M. Hirano and N. Sakaida,
J. Ceram. Soc. Japan, 111, [3] 176-180 (2003). |
49.“Effect of Bi2O3 Additives in Sc stabilized Zirconia Electrolyte on a Stability of Crystal Phase and
Electrolyte Properties,”
M. Hirano, T. Oda, K. Ukai and Y. Mizutani,
Solid State Ionics, 158, [3-4] 215-223 (2003). |
48.“Photoactivity and Phase Stability of ZrO2-Doped Anatase-Type TiO2 Directly
Formed as Nanometer-Sized Particles by Hydrolysis under Hydrothermal
Conditions,”
M. Hirano, C. Nakahara, K. Ota, O. TanaikeE, and M. Inagaki,
J. Solid State Chem., 170, [1] 39-47 (2003). |
47.“Synthesis of MnV2O6 under Autogenous Hydrothermal Conditions and Its Anodic Performance,”
M. Inagaki, T. Morishita, M. Hirano, V. Gupta, and T. Nakajima,
Solid State Ionics, 156, 275-282 (2003). |
46.“Precipitation of Spinel-Type Zn(Fe, Ga)2O4 Solid Solutions from Aqueous Solutions
below 90°C: Influence of Iron Valence of Staring Salt on their Crystallite
Growth,”
M. Hirano, S. Okumura, Y. Hasegawa, and M. Inagaki,
J. Solid State Chem., 168, 5-10 (2002). |
45.“Direct Synthesis of New Zircon-Type ZrGeO4 and Zr(Ge, Si)O4 Solid Solutions,”
M. Hirano, H. Morikawa, M. Inagaki and M. Toyoda,
J. Am. Ceram. Soc., 85 [8] 1915-1920 (2002). |
44.“Hydrothermal Synthesis and Low Temperature Sintering of Zinc Gallate
Spinel Fine Particles,”
M. Hirano and N. Sakaida,
J. Am. Ceram. Soc., 85 [5] 1145-1150 (2002). |
43.“Suppression of Rhombohedral-Phase Appearance and Low-Temperature Sintering
of Scandia-Doped Cubic Zirconia,”
M. Hirano, T. Oda, K. Ukai, and Y. Mizutani,
J. Am. Ceram. Soc., 85 [5] 1336-1338 (2002). |
42.“Direct Formation of ZrO2-Doped TiO2 with Stable Anatase-Type Structure by Thermal Hydrolysis,”.
M. Hirano, C. Nakahara, K. Ota, and M. Inagaki,
J. Am. Ceram. Soc., 85 [5] 1333-1335 (2002). |
41.“Preparation of Stable Anatase-Type TiO2 and Its Photocatalytic Performance,”
M. Inagaki, Y. Nakazawa, M. Hirano, Y. Kobayashi, and M. Toyoda,
Int. J. Inorg. Mater., 3 [7] 809-811 (2001). |
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Peer-Reviewed Paper (査読論文)
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