MnOx−CeO2 Binary Oxides for Catalytic NOx Sorption at Low Temperatures. Sorptive Removal of NOx M Machida, M Uto, D Kurogi, T Kijima Chemistry of materials 12 (10), 3158-3164, 2000 | 407 | 2000 |
Effect of additives on the surface area of oxide supports for catalytic combustion M Machida, K Eguchi, H Arai Journal of Catalysis 103 (2), 385-393, 1987 | 397 | 1987 |
Thermal stabilization of catalyst supports and their application to high-temperature catalytic combustion H Arai, M Machida Applied Catalysis A: General 138 (2), 161-176, 1996 | 392 | 1996 |
On the Reasons for High Activity of CeO2 Catalyst for Soot Oxidation M Machida, Y Murata, K Kishikawa, D Zhang, K Ikeue Chemistry of Materials 20 (13), 4489-4494, 2008 | 353 | 2008 |
Catalytic properties of BaMAl 11 O 19-α (M= Cr, Mn, Fe, Co, and Ni) for high-temperature catalytic combustion M Machida, K Eguchi, H Arai Journal of Catalysis 120 (2), 377-386, 1989 | 300 | 1989 |
Synthesis and Photocatalytic Property of Layered Perovskite Tantalates, RbLnTa2O7 (Ln = La, Pr, Nd, and Sm) M Machida, J Yabunaka, T Kijima Chemistry of Materials 12 (3), 812-817, 2000 | 279 | 2000 |
Effect of structural modification on the catalytic property of Mn-substituted hexaaluminates M Machida, K Eguchi, H Arai Journal of Catalysis 123 (2), 477-485, 1990 | 202 | 1990 |
Metallic Pd nanoparticles formed by Pd− O− Ce interaction: a reason for sintering-induced activation for CO oxidation S Hinokuma, H Fujii, M Okamoto, K Ikeue, M Machida Chemistry of Materials 22 (22), 6183-6190, 2010 | 194 | 2010 |
Recent progress in high-temperature catalytic combustion H Arai, M Machida Catalysis today 10 (1), 81-94, 1991 | 194 | 1991 |
Low temperature catalytic NOx–H2 reactions over Pt/TiO2-ZrO2 in an excess oxygen M Machida, S Ikeda, D Kurogi, T Kijima Applied Catalysis B: Environmental 35 (2), 107-116, 2001 | 184 | 2001 |
Synthesis and deorganization of an aluminium–based dodecyl sulfate mesophase with a hexagonal structure M Yada, M Machida, T Kijima Chemical Communications, 769-770, 1996 | 171 | 1996 |
Photocatalytic property and electronic structure of lanthanide tantalates, LnTaO4 (Ln= La, Ce, Pr, Nd, and Sm) M Machida, S Murakami, T Kijima, S Matsushima, M Arai The Journal of Physical Chemistry B 105 (16), 3289-3294, 2001 | 163 | 2001 |
Synthesis of aluminum-based surfactant mesophases morphologically controlled through a layer to hexagonal transition M Yada, H Hiyoshi, K Ohe, M Machida, T Kijima Inorganic Chemistry 36 (24), 5565-5569, 1997 | 155 | 1997 |
Studies in surface science and catalysis P Granger Elsevier, 2007 | 153* | 2007 |
Preparation and characterization of large surface area BaO· 6Al2O3 M Machida, K Eguchi, H Arai Bull. Chem. Soc. Jpn 61 (10), 3659-3665, 1988 | 142 | 1988 |
Large-capacity oxygen storage by lanthanide oxysulfate/oxysulfide systems M Machida, K Kawamura, K Ito, K Ikeue Chemistry of materials 17 (6), 1487-1492, 2005 | 137 | 2005 |
Novel Visible-Light-Driven Photocatalyst Based on Mn−Cd−S for Efficient H2 Evolution K Ikeue, S Shiiba, M Machida Chemistry of Materials 22 (3), 743-745, 2010 | 125 | 2010 |
Photocatalytic properties of layered perovskite tantalates, MLnTa 2 O 7 (M= Cs, Rb, Na, and H; Ln= La, Pr, Nd, and Sm) M Machida, K Miyazaki, S Matsushima, M Arai Journal of Materials Chemistry 13 (6), 1433-1437, 2003 | 123 | 2003 |
Analytical Electron Microscope Analysis of the Formation of BaO · 6Al2O3 M Machida, K Eguchi, H Arai Journal of the American Ceramic Society 71 (12), 1142-1147, 1988 | 107 | 1988 |
Pillaring and photocatalytic property of partially substituted layered titanates, Na2Ti3− xMxO7 and K2Ti4− xMxO9 (M= Mn, Fe, Co, Ni, Cu) M Machida, XW Ma, H Taniguchi, J Yabunaka, T Kijima Journal of Molecular Catalysis A: Chemical 155 (1-2), 131-142, 2000 | 105 | 2000 |