| 1 | Effects of Alkali Halides in the Formation of Alcohols from CO and H2 over Silica-supported Molybdenum Catalysts |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., Chemistry Letters, 1984, 685-688. | |
| 2 | Alcohol Synthesis from CO2/H2 on Silica-supported MolybdenumCatalysts |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., Chemistry Letters, 1985, 593-594. | |
| 3 | Effect of Molybdenum Precursors on Activity for Alcohol Synthesis from CO-H2 overAlkali-promoted Molybdenum Catalysts |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., Polyhedron, 5, 257-260 (1986). | |
| 4 | Influence of Support and Potassium on CO Hydrogenation Catalyzed by Molybdenum |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., Applied Catalysis, 27, 69-82 (1986). | |
| 5 | Nickel-promoted Mo catalysts for Alcohol Synthesis from CO-H2 |
| Tatsumi, T., Muramatsu, A., Fukunaga, T., and Tominaga, H., Chemistry Letters, 1986,919-920. | |
| 6 | Importance of Sequence of Impregnation in the Activity Development of Alkali-promoted Mo Catalysts for Alcohol Synthesis from CO-H2 |
| Tatsumi, T., Muramatsu, A., Tominaga, H., Journal of Catalysis, 101, 553-556 (1986). | |
| 7 | Supported Molybdenum Catalysts for Alcohol Synthesis from CO-H2 |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., Applied Catalysis, 34, 77-88 (1987). | |
| 8 | Mechanism of CO Hydrogenation to Alcohols on Potassium-promoted Mo/SiO2 |
| Tatsumi, T., Muramatsu, A., Yokota, K., and Tominaga, H., Journal of Molecular Catalysis, 41, 385-389 (1987). | |
| 9 | Mixed Alcohol Synthesis from CO-H2 by Use of KCl-promoted Mo/SiO2 Catalysts |
| Muramatsu, A., Tatsumi, T., and Tominaga, H., Bulletin of the Chemical Society of Japan, 60, 3157-3161 (1987)] | |
| 10 | Enhancement of Activity for Hydrocarbon Synthesis from Synthesis Gas over Molybdenum/SiO2 Catalysts by Treatment With CO-rich Synthesis Gas |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., Sekiyu Gakkaishi, 32, 43-46 (1989). | |
| 11 | Mechanistic Study on the Alcohol Synthesis over Molybdenum Catalysts |
| Tatsumi, T., Muramatsu, A., Yokota, K., and Tominaga, H., Journal of Catalysis, 115,388-398 (1989). | |
| 12 | Oxidative Dimerization of Dimethyl Ether with Solid Catalysts |
| Yagita, H., Asami, K., Muramatsu, A., and Fujimoto, K., Applied Catalysis, 53, L5-L9 (1989). | |
| 13 | Synthesis of Acetonitrile and Related Compounds from CO-H2-NH3 over Mo/SiO2 |
| Tatsumi,T., Kunitomi,S., Yoshiwara,J., Muramatsu,A., and Tominaga,H., Catalysis Letters, 3, 223-226 (1989). | |
| 14 | 液相還元法によるNi金属、Ni-Zn合金超微粒子の合成 -アモルファス合金超微粒子の液相合成(第1報) |
| 村松淳司、設楽修一、佐々木弘、臼井進之助, 資源・素材学会誌,106, 799-804 (1990). | |
| 15 | 液相還元法合成Ni金属、Ni-Zn合金超微粒子の表面反応特性 -アモルファス合金超微粒子の液相合成(第2報) |
| 村松淳司、設楽修一、佐々木弘、臼井進之助, 資源・素材学会誌,106, 805-810 (1990). | |
| 16 | Zeta Potential Measurement by Means of Plane Interface Technique |
| Sasaki,H., Muramatsu,A., Arakatsu,H., and Usui,S., Journal of Colloid and Interface Science, 142, 266-271 (1991). | |
| 17 | 単分散球形ヘマタイト水相分散系の凝集 |
| タマリン・シヒテ、佐々木弘、村松淳司、臼井進之助, 資源・素材学会誌,107, 215-218 (1991)] | |
| 18 | Active Species of Molybdenum for Alcohol Synthesis from CO-H2 |
| Muramatsu, A., Tatsumi, T., and Tominaga, H., Journal of Physical Chemistry, 96, 1334-1440 (1992). | |
| 19 | 液相還元法によるNi金属超微粒子の合成と水素化反応触媒への応用 |
| 村松淳司、佐々木弘、臼井進之助, 素材物性学雑誌, 5, 59-68 (1992). | |
| 20 | Preparation of Monodisperse Peanut-type α-Fe2O3 Particles from Condensed Ferric Hydroxide Gel |
| Sugimoto,T., Khan,M.M., and Muramatsu,A., Colloids and Surfaces, A70, 167-169, 1993. | |
| 21 | Molybdenum Catalysts for Synthesis of Mixed Alcohols from Synthesis Gas |
| Tatsumi, T., Muramatsu, A., and Tominaga, H., 石油学会誌, 35, 233-243 (1992). | |
| 22 | Characterization of Hematite Particles of Different Shapes |
| Sugimoto,T., Muramatsu,A., Sakata,K., and Shindo,D., Journal of Colloid and Interface Science, 158, 420-428 (1993). | |
| 23 | Formation Mechanism of Monodisperse Pseudocubic α-Fe2O3 Particles from Condensed Ferric Hydroxide Gel |
| Sugimoto,T., Sakata, K., and Muramatsu,A., Journal of Colloid and Interface Science, 159, 372-382 (1993).. | |
| 24 | Formation Mechanism of Monodisperse Peanut-type α-Fe2O3 Particles from Condensed Ferric Hydroxide Gel |
| Sugimoto, T., Khan, M.M., Muramatsu, A. and Itoh, H., Colloids and Surfaces A79, 233-239 (1993). | |
| 25 | Crystallography of Platelet-type Hematite Particles by Electron Microscopy |
| Shindo, D., Lee, B.T., Waseda, Y., Muramatsu, A., and Sugimoto, T., Mater. Trans. JIM, 34, 580-585 (1993). | |
| 26 | Feasibility Study on Blast Furnace Ironmaking System Integrated with Methanol Synthesis for Reduction of Carbon Dioxide Emission and Effective Use of Exergy |
| Akiyama, T., Sato, H., Muramatsu, A., and Yagi, J., ISIJ International, 33, 1136-1143 (1993). | |
| 27 | Methanol Synthesis from Blast Furnace Off Gas |
| Muramatsu, A., Sato, H., Akiyama, T., and Yagi, J., ISIJ International, 33, 1144-1149 (1993). | |
| 28 | Controlled Formation of Ultrafine Nickel Particles on Well-defined Hematite Particles |
| Muramatsu, A., Ichikawa, S., and Sugimoto, T., Colloids and Surfaces, A:82, 29-35 (1994) | |
| 29 | Local Structure of Ferric Hydroxide Fe(OH)3 in Aqueous Solution by the Anomalous X-ray Scattering |
| Shinoda, K., Matsubara, E., Muramatsu, A., and Waseda, Y., Materials Transactions, JIM, 35, 394-398 (1994). | |
| 30 | Preparation of Monodispersed CdS Particles from Condensed Cd(OH)2 Suspension |
| Sugimoto, T., Dirige, G.E., and Muramatsu, A., J. Colloid Interface Sci., 173, 257-261 (1995). | |
| 31 | Formation Mechanism of Uniform CdS Particles from Condensed Cd(OH)2 Suspension |
| Sugimoto, T., Dirige, G.E., and Muramatsu, A., J. Colloid Interface Sci., 176, 442-453 (1995). | |
| 32 | 各種補助燃料が製鉄・メタノール合成復号化システムからの炭酸ガス排出量削減におよぼす効果 |
| 佐藤弘孝、秋山友宏、村松淳司、杉本忠夫、八木順一郎, 石油学会誌, 38, 390-398 (1995). | |
| 33 | Preparation of Monodisperse Platelet-type Hematite Particles from a Highly Condensed β-FeOOH Suspension |
| Sugimoto, T., Waki, S., Itoh, H., and Muramatsu, A., Colloids and Surfaces, A: Physicochemical Aspects, 109, 155-165 (1996). | |
| 34 | Synthesis of Monodisperse CdS and ZnS Particles from Concentrated Solutions of the EDTA-Metal Complexes |
| Sugimoto, T., Dirige, G.E., and Muramatsu, A., J. Colloid Interface Sci., 180, 305-308 (1996). | |
| 35 | Formation Mechanism of Monodisperse CdS and ZnS Particles from Concentrated Solutions of the EDTA-Metal Complexes |
| Sugimoto, T., Dirige, G.E., and Muramatsu, A., J. Colloid Interface Sci., 182, 444-456 (1996). | |
| 36 | High-Resolution Electron Microscopy on Thin Sections of Monodisperse CdS Particles |
| Yang J.-M., Shindo D., Dirige, G.E., and Muramatsu, A., and Sugimoto, T., J. Colloid Interface Sci., 182, 295-298 (1996). | |
| 37 | Formation Mechanism of Monodispersed α-Fe2O3 Particles in Dilute FeCl3 Solutions |
| Sugimoto, T. and Muramatsu, A., Journal of Colloids and Interface Science, 184, 626-638 (1996).. | |
| 38 | Direct Conversion of Blast Furnace Gas to Dimethyl Ether over Cu-ZnO-Ga2O3/γ-Al2O3 Hybrid Catalyst: Optimum Mass Ratio of the Catalyst |
| Machida, S., Akiyama, T., Muramatsu, A., and Yagi, J., ISIJ International, 37, 531-535 (1997). | |
| 39 | 高炉排出ガスからのメタノールおよびジメチルエーテルの合成 |
| 佐藤弘孝、村松淳司、秋山友宏、八木順一郎, 石油学会誌, 40, 427-432 (1997). | |
| 40 | Synthesis of Uniform Cu2O Particles from Condensed CuO Suspensions |
| Muramatsu, A., and Sugimoto, T., Journal of Colloid and Interface Science, 189, 167-173 (1997). | |
| 41 | Systematic Control of Size, Shape and Internal Structure of Monodisperse α-Fe2O3 Particles |
| Sugimoto, T., Wang, Y., Itoh, H., and Muramatsu, A., Journal of Colloid and Interface Science, 134, 265-279 (1998). | |
| 42 | FTIR Analysis of Well-Defined α-Fe2O3 Particles |
| Wang, Y., Muramatsu, A., and Sugimoto, T., Journal of Colloid and Interface Science, 134, 281-297 (1998). | |
| 43 | Synthesis of Uniform Particles of CdS, ZnS, PbS, and CuS from Concentrated Solutions of the Metal Chelates |
| Sugimoto, T., Chen S., and Muramatsu, A., Colloid and Surfaces, in press (1997). | |
| 44 | Direct Measurement of Inter-Particle Forces by Optical Trapping Technique |
| Sugimoto, T., Takahashi, T., Itoh, H., and Muramatsu, A., Lagmuir, 13, 5528-5530 (1997). | |
| 45 | Synthesis of Uniform Particles of CdS, ZnS, PbS, and CuS from Concentrated Solutions of the metal Chelates |
| Sugimoto, T., Chen, S., and Muramatsu, A., Colloid and Surfaces, A: Physicochemical and Engineering Aspects, 135, 207-226 (1998). |