発表論文 ARTICLE
2021年
(1) S. Tada, N. Asakuma, S. Ando, T. Asaka, Y. Daiko, S. Honda, M. Haneda, S. Bernard, R. Riedel, Y. Iwamoto*, "Novel hydrogen chemisorption properties of amorphous ceramic compounds consisting of p-block elements: exploring Lewis acid–base Al–N pair sites formed in situ within polymer-derived silicon–aluminum–nitrogen-based systems", Journal of Materials Chemistry A, 9 (5), 2959-2969 (2021.2).
(2) M. Haneda*, Y. Nakamura, T. Yamada, S. Minami, N. Kato, K. Iwashina, Y. Endo, Y. Nakahara, K. Iwachido, "Comprehensive study of light-off performance and surface property of engine-aged Pd-based three-way catalyst", Catalysis Science & Technology, 11 (3), 912-922 (2021.2).
(3) Y. Tomida, M. Haneda*, "Influence of crystal structure of Y-doped ZrO2 as support oxide on the three-way catalytic performance of supported Rh catalyst", Journal of the Ceramic Society of Japan, 129 (3), 168-174 (2021.3).
2020年
(1) Y. Aoyama, H. Kobayashi,* T. Yamamoto, T. Toriyama, S. Matsumura, M. Haneda, H. Kitagawa, "Significantly enhanced CO oxidation activity induced by a change in the CO adsorption site on Pd nanoparticles covered with metal–organic frameworks", Chemical Communications, 56, 3839-3842 (2020.4).
(2) T. Fuchigami*, R. Kimata, M. Haneda, K. Kakimoto, "Growth mechanism and CO oxidation catalytic activity of raspberry-shaped Co3O4 nanoparticles", Journal of the Ceramic Society of Japan, 128 (5), 291-297 (2020.5).
(3) Z. Liu*, B. Jia, Y. Zhang, M. Haneda, "Engineering the Metal−Support Interaction on Pt/TiO2 Catalyst to Boost the H2‑SCR of NOx", Industrial & Engineering Chemistry Research, 59 (31), 13916-13922 (2020.8).
(4) T. Fuchigami*, M. Kuroda, S. Nakamura, M. Haneda, K. Kakimoto, "Spiky-shaped niobium pentoxide nano-architecture: highly stable and recoverable Lewis acid catalyst", Nanotechnology, 31 (32), 325705 (2020.8).
(5) A. Lalea*, M. Debarba Mallmann, S. Tada, A. Bruma, S. Ozkar, R. Kumar, M. Haneda, R. Antonio F. Machado, Y. Iwamoto, U.B. Demirci, S. Bernard*, "Highly Active, Robust and Reusable Micro-/Mesoporous TiN/Si3N4 Nanocomposite-based Catalysts for Clean Energy: Understanding the Key Role of TiN Nanoclusters and Amorphous Si3N4 Matrix in the Performance of the Catalyst System", Applied Catalysis B: Environmental, 272, 118975 (2020.9).
(6) 津田豊史、三浦和也、木俣文和*、岩知道均一、中原祐之輔、堀 正雄、三木 健、細川三郎、朝倉博行、羽田政明、「高温還元したRh職日の排気ガス浄化反応と反応機構解析」、自動車技術会論文集、51 (5), 761-766 (2020.9).
(7) B. Huang, H. Kobayashi, T. Yamamoto, S. Matsumura, Y. Nishida, K. Sato, K. Nagaoka, M. Haneda, S. Kawaguchi, Y. Kubota, H. Kitagawa, "Coreduction methodology for immiscible alloys of CuRu solid-solution nanoparticles with high thermal stability and versatile exhaust purification ability", Chenical Science, 11, 11413-11418 (2020.11).
(8) A. Fujiwara, Y. Tsurunari, H. Yoshida, J. Ohyama, T. Yamada, M. Haneda, T. Miki, M. Machida*, "Thermal Deactivation of Pd/CeO2-ZrO2 Three-Way Catalysts during Real Engine Aging: Analysis by a Surface plus Peripheral Site Model", ACS Omega, 5 (44), 28897-28906 (2020.11)
2019年
(1) B. Huang, H. Kobayashi,* T. Yamamoto, T. Toriyama, S. Matsumura, Y. Nishida, K. Sato, K. Nagaoka, M. Haneda, W. Xie, Y. Nanba, M. Koyama, F. Wang, S. Kawaguchi, Y. Kubota, H. Kitagawa, "A CO Adsorption Site Change Induced by Copper Substitution in a Ruthenium Catalyst for Enhanced CO Oxidation Activity", Angewandte Chemie International Edition, 58, 2230-2235 (2019.2).
(2) M. Machida*, A. Fujiwara, H. Yoshida, J. Ohyama, H. Asakura, S. Hosokawa, T. Tanaka, M. Haneda, A. Tomita, T. Miki, K. Iwashina, Y. Endo, Y. Nakahara, S. Minami, N. Kato, Y. Hayashi, H. Goto, M. Hori, T. Tsuda, K. Miura, F. Kimata, K. Iwachido, "Deactivation Mechanism of Pd/CeO2-ZrO2 Three-Way Catalysts Analyzed by Chassis-Dynamometer Tests and in situ Diffuse Reflectance Spectroscopy", ACS Catalysis, 9 (7), 6415-6424 (2019.7).
(3) M. Haneda*, M. Tanaka, Y. Doi, N. Bion, "Preface: The 8th Japan–China Workshop on Environmental Catalysis and Eco-Materials was held in Tsukuba, Japan, December 5–6, 2017", Catalysis Today, 332, 1 (2019.7).
(4) 小川 誠、棚橋晃毅、岩知道均一*、南 茂和、加藤尚弘、後藤秀樹、羽田政明、「熱耐久したPd触媒のライトオフ特性とFT-IRによるPd粒子表面状態解析」、自動車技術会論文集、50 (5), 1288-1293 (2019.9).
(5) K. Kusatsugu, Y. Nakamura, M. Haneda*, "Three-way catalytic performance of Fe-doped Pd/CeO2-ZrO2 under lean/rich perturbation conditions", Applied Catalysis A: General, 587, 117268 (2019.10).
2018年
(1) 羽田政明*、「in situ 赤外吸収分光法を活用した排ガス浄化触媒の評価および反応解析」、自動車技術会シンポジウム No.19-17, 20174989 (2018.2).
(2) Y. Doi, M. Haneda*, "Catalytic performance of supported Ir catalysts for NO reduction with C3H6 and CO in slight lean conditions", Catalysis Today, 303, 8-12 (2018.3).
(3) T. Fuchigami*, R. Kimata, M. Haneda, K. Kakimoto, "Complex Three-Dimensional Co3O4 Nano-Raspberry: Highly Stable and Active Low-temperature CO", Nanomaterials, 8 (9), 662 (2018.9).
(4) M. Haneda*, M. Tanaka, Y. Doi, N. Bion, "Oxidative coupling of methane over Ba-doped Y2O3 catalyst – Similarity with active site for direct decomposition of NO", Molecular Catalysis, 457, 74-81 (2018.10). Editor's Choice paper
(5) M. Haneda*, Y. Katsuragawa, Y. Nakamura, A. Towata, "Promoting Effect of Cerium Oxide on the Catalytic Performance of Yttrium Oxide for Oxidative Coupling of Methane", Frontiers in Chemistry, 6, 581 (2018.11).
2017年
(1) M. Haneda*, Y. Tomida, T. Takahashi, Y. Azuma, T. Fujimoto, "Three-way catalytic performance and change in the valence state of Rh in Y- and Pr-doped Rh/ZrO2 under lean/rich perturbation conditions", Catalysis Communications, 90, 1-4 (2017.3).
(2) M. Haneda*, M. Todo, Y. Nakamura, M. Hattori, "Effect of Pd dispersion on the catalytic activity of Pd/Al2O3 for C3H6 and CO oxidation", Catalysis Today, 281 (Part 3), 447-453 (2017.3).
(3) M. Ozawa*, M. Takahashi-Morita, K. Kobayashi, M. Haneda, "Core-shell typ ceria zirconia support for platinum and rhodium three way catalysts", Catalysis Today, 281 (Part 3), 482-489 (2017.3).
(4) M. Haneda*, Y. Kawaguchi, A. Towata, "CoOx-FeOx composite oxide prepared by hydrothermal method as a highly active catalyst for low-temperature CO oxidation", Journal of the Ceramic Society of Japan, 125 (3), 135-140 (2017.3).
(5) M. Haneda*, K. Takamura, Y. Doi, N. Bion, L. Vivier, "Synthesis of ordered porous zirconia containing sulfate ions and evaluation of its surface acidic properties", Journal of Materials Science, 52 (10), 5835-5845 (2017.5).
2016年
(1) M. Hattori*, M. Haneda, M. Ozawa, "Influence of Ce/Zr ratio on CO oxidation activity of ceria-zirconia supported Cu catalyst", Journal of the Japan Applied Physics, 55 (1S), 01AE05 (2016.1).
(2) M. Haneda*, Y. Tomida, S. Sawada, M. Hattori, "Effect of rare earth additives on the catalytic performance of Rh/ZrO2 three-way catalyst", Topics in Catalysis, 59 (10), 105-1064 (2016.7).
(3) M. Haneda*, H. Hamada, "Recent progress in catalytic NO decomposition", Comptes Rendus Chimie, 19 (10), 1254-1265 (2016.10).
(4) M. Haneda*, Y. Ota, Y. Doi, M. Hattori, "Preparation, charaterization and activity of SnO2 nanoparticles supported on Al2O3 as a catalyst for the selective reduction of NO with C3H6", Journal of Materials Science, 51 (24), 10949-10959 (2016.12).
2015年
(1) Y. Doi, M. Haneda*, M. Ozawa, "Promoting effect of CeO2 on the catalytic activity of Ba-Y2O3 for direct decomposition of NO", Bulletin of the Chemical Society of Japan, 88 (1), 117-123 (2015.1).
(2) N. Kamiuchi*, M. Haneda, M. Ozawa, "Propene oxidation over palladium catalysts supported on zirconia rich ceria-zirconia", Catalysis Today, 241 (Part A), 100-106 (2015.3).
(3) M. Ozawa*, T. Okouchi, M. Haneda, "Three way catalytic activity of thermally degenerated Pt/Al2O3 and Pt/CeO2-ZrO2 modified Al2O3 model catalysts", Catalysis Today, 242 (Part B), 329-337 (2015.3).
(4) M. Haneda*, A. Towata, "Catalytic performance of supported Ag nano-particles prepared by liquid phase chemical reduction for soot oxidation", Catalysis Today, 242 (Part B), 351-356 (2015.3).
(5) M. Haneda*, T. Kaneko, N. Kamiuchi, M. Ozawa, "Improved three-way catalytic activity of bimetallic Ir-Rh catalysts supported on CeO2-ZrO2", Catalysis Science & Technology, 5 (3), 1792-1800 (2015.3)
(6) M. Haneda*, R. Taguchi, M. Hattori, "Influence of particles morphology on catalytic performance of CeO2/ZrO2 for soot oxidation", Journal of the Ceramics Society of Japan, 123 (5), 414-418 (2015.5)
(7) M. Haneda*, M. Sasaki, H. Hamada, , "Development of diesel hydrocarbon oxidation catalyst aiming at reducing platinum group metals usage(白金族金属の使用量低減を目指したディーゼル酸化触媒の開発)", Journal of the Japan Petroleum Institute, 58 (4), 205-217 (2015.7))
2014年
(1) K. Li, M. Haneda, P. Ning, H. Wang, M. Ozawa*, "Microstructre and oxygen evolution of Fe-Ce mixed oxides by redox treatment", Applied Surface Science, 289, 378-383 (2014.1).
(2)Y. Doi, M. Haneda*, M. Ozawa, "Direct decomposition of NO on Ba catalysts supported on rare earth oxides", Journal of Molecular Catalysis A: Chemicals, 383-384, 70-76 (2014.3).
(3) M. Haneda*, K. Suzuki, M. Sasaki, H. Hamada, M. Ozawa, "Catalytic performance of bimetallic PtPd/Al2O3 for diesel hydrocarbon oxidation and its implementation by acidic additives", Applied Catalysis A: General, 475, 109-115 (2014.4).
(4) J. Uchisawa*, T. Tango, A. Caravella, S. Hara, M. Haneda, T. Murakami, H. Nakagawa, T. Nanba, A. Obuchi, "Effects of the Extent of Silica Doping and the Mesopore Size of an Alumina Support on Activity", Industrial & Engineering Chemical Research, 53 (19), 7992-7998 (2014.5).
(5) 網本正哉、羽田政明、小澤正邦, 「酸化鉄を導入したセリアジルコニア材料の合成と分光特性の評価」, 材料, 63 (6), 432-436 (2014.6).
(6) N. Kamiuchi*, M. Haneda, M. Ozawa, "Enhancemnet of OSC property of Zr rich ceria-zirconia by loading a small amount of platinum", Catalysis Today, 232, 179-184 (2014.9).
(7) M. Haneda*, T. Kaneko, N. Kamiuchi, M. Ozawa, "Bimetallic IrRh/CeO2-ZrO2 as a highly active catalysts for NO-CO-C3H6-H2-O2 reactions under stoichiometric conditions", Chemistry Letters, 43 (12), 1852-1854 (2014.12)
2013年
(1) M. Ozawa*, H. Yuzuriha, M. Haneda, "Total oxidation of toluene and oxygen storage capacity of zirconia-sol modified ceria zirconia", Catalysis Communications, 30, 32-35 (2013.1).
(2) M. Haneda*, H. Sawada, N. Kamiuchi, M. Ozawa, "Promoting effect of CeO2 on the catalytic activity of Rh supported on Y-stabilized ZrO2 for NO-CO-C3H6-O2 reactions", Chemistry Letters, 42 (1), 60-62 (2013.1).
(3) K. Li, M. Haneda, G. Zhenhua, H. Wang, M. Ozawa*, "Modification of CeO2 on the redox property of Fe2O3", Materials Letters, 93, 129-132 (2013.2).
(4) K. Kobayashi*, M. Haneda, M. Ozawa, "Preparation of organic-modified ceria nanocrystals with hydrothermal treatment", Ceramic Transactions, 239, 195-204 (2013).
(5) M. Hattori, M. Haneda, M. Ozawa*, "Oxygen release property of ceria/alumina composite powder in reducing atmosphere at low temperatures", Journal of the
(6) M. Haneda*, M. Bonne, D. Duprez, M. Ozawa, "Effect of Y-stabilized ZrO2 as support on catalytic performance of Pt for n-butane oxidation", Catalysis Today, 201, 25-31 (2013.3).
(7) N. Kamiuchi*, M. Haneda, M. Ozawa, "Comparative study of CO oxidation activities over Pt/Ce-Zr oxide and Pt/Al2O3 catalysts", Catalysis Today, 201, 79-84 (2013.3).
(8) M. Sasaki*, K. Suzuki, A. Sultana, M. Haneda, H. Hamada, "Effect of acid-base properties on the catalytic activity of Pt/Al2O3 based catalysts for diesel NO oxidation", Topics in Catalysis, 56 (1-8), 205-209 (2013.5).
(9) M. Haneda*, M. Sasaki, H. Hamada, M. Ozawa, "Effect of Pt dispersion on the catalytic activity of supported Pt catalysts for diesel hydrocarbon oxidation", Topics in Catalysis, 56 (1-8), 249-254 (2013.5).
(10) 網本正哉、羽田政明、小澤正邦, 「セリア-ジルコニア-テルビア系固溶体の合成と分光特性評価」, 材料, 62 (6), 377-381 (2013.6).
(11) K. Li, M. Haneda, M. Ozawa*, "Oxygen release - absorption properties and structural stability of Ce0.8Fe0.2O2-x", Journal of Materials Science, 48, 5733-5743 (2013.9).
(12) M. Haneda*, T. Watanabe, N. Kamiuchi, M. Ozawa, "Effect of platinum dispersion on the activity of Pt/Al2O3 for the oxidation of carbon monoxide and propene", Applied Catalysis B: Environmental, 142, 8-14 (2013.10).
2012年
(1) K. Li*, M. Haneda, M. Ozawa, "The synthesis of iron oxides with different phases or exposure crystal planes and their catalytic property for propene oxidation", Advanced Materials Research, 463-464, 189-193 (2012.2).
(2) K. Kobayashi*, M. Haneda, M. Ozawa, "Hydrothermal synthesis of CeO2 nanocrystals using oleate-modified precipitation method", Advanced Materials Research, 463-464, 1501-1505 (2012.2).
(3) 網本正哉、木村健志、羽田政明、小澤正邦, 「セリアジルコニア系粉末の共沈法による合成と分光特性評価」, 粉体および粉末冶金, 59 (2), 75-79 (2012.2).
(4) M. Ozawa*, O. Kato, N. Tanaka, W. Yan, M. Haneda, "Effect of lanthanum addition on thermal stability and benzene removal activity of iron oxide/alumina composite powders", Journal of the
(5) M. Bonne*, M. Haneda, D. Duprez, M. Ozawa, "Effect of addition on Y2O3 in ZrO2 support on n-butane Pt catalyzed oxidation", Catalysis Communications, 19, 74-79 (2012.3).
(6) H. Hamada*, M. Haneda, "Development of Iridium Catalysts for Selective Reduction of NO with CO(一酸化炭素によるNO選択還元用イリジウム触媒の研究開発)", Journal of the Japan Petroleum Institute, 55 (2), 87-98 (2012.3).
(7) H. Hamada*, M. Haneda, "A review of selective catalytic reduction of nitrogen oxides with hydrogen and carbon monoxide", Applied Catalysis A: General, 421-422, 1-13 (2012.4).
(8) M. Haneda*, T. Watanabe, M. Ozawa, "Surface characterization of platinum nano-particles supported on alumina: behavior of hydrogen adspecies", Journal of the Japan Petroleum Institute, 55 (3), 191-196 (2012.5).
(9) K. Li, M. Haneda, M. Ozawa*, "Enhancement of reducibility and oxygen storage capacity (OSC) of Ce-Fe mixed oxides by repetitive redox treatment", Chemistry Letters, 41 (8), 837-838 (2012.8).
(10) K. Kobayashi*, M. Haneda, M. Ozawa, "Dispersion of Oleate-modified CeO2 Nanocrystals in Non-Polar Solvent and Aqueous Solution", ECS Transactions, 50 (27), 39-49 (2012.10).
2011年
(1) M. Haneda*, N. Aoki, M. Sasaki, H. Hamada, "Catalytic performance of Ir/CeO2 for NO-C3H6-O2 reaction in a stoichiometric condition", Applied Catalysis A: General, 394 (1-2), 239-244 (2011.2).
(2) A. Sultana*, T. Nanba, M. Sasaki, M. Haneda, K. Suzuki, H. Hamada, "Selective catalytic reduction of NO with NH3 over different copper exchanged zeolites in the presence of decane", Catalysis Today, 164 (1), 495-499 (2011.4).
(3) M. Haneda*, M. Sasaki, H. Hamada, M. Ozawa, "Platinum-based catalyst for diesel hydrocarbon oxidation", Chinese Journal of Catalysis, 32 (5), 777-781 (2011.5).
(4) M. Haneda*, M. Sasaki, H. Hamada, M. Ozawa, "In situ FT-IR study of diesel hydrocarbon oxidation over Pt/Al2O3 catalyst", Catalysis Letters, 141 (9), 1262-1267 (2011.9).
(5) M. Hattori, M. Haneda, M. Ozawa, "The effect of heat treatment on interaction, microstructure and oxygen storage capacity of Pt added CeO2 on Al2O3", Journal of the Japan Society of Powder and Powder Metallurgy (粉体および粉末冶金), 58 (9), 511-515 (2011.9).
(6) M. Haneda*, Y. Doi, M. Ozawa, "Direct decomposition of NO over Ba-Y2O3 catalyst prepared by co-precipitation method", Bulletin of the Chemical Society of Japan, 84 (12), 1383-1389 (2011.12).
2010年
(1) M. Haneda*, O. Houshito, T. Sato, H. Takagi, K. Shinoda, Y. Nakahara, K. Hiroe, H. Hamada, "Improved activity of Rh/CeO2-ZrO2 three-way catalyst by high temperature ageing", Catalysis Communications, 11 (5), 317-321 (2010.1).
(2) M. Haneda*, H. Hamada, "Promotinal effect of H2O in the selective catalytic reduction of NO with CO over Ir/WO3/SiO2 catalyst", Journal of Catalysis, 273 (1), 39-49 (2010.7).
(3) A. Sultana*, T. Nanba, M. Haneda, M. Sasaki, H. Hamada, "Influence of co-cations on the formation of Cu+ species in Cu/ZSM-5 and its effect on selective catalytic reduction of NOx with NH3", Applied Catalysis B: Enviromental, 101 (1-2), 61-67 (2010.11).
(4) K. Suzuki*, M. Haneda, M. Sasaki, H. Hamada, "Effect of organics on activity of Cu/ZSM-5 catalyst for selective reduction of NO with NH3(Cu/ZSM-5触媒によるNOのNH3選択還元反応に与える共存有機物の影響)", Journal of the Japan Petroleum Institute, 53 (6), 355-358 (2010.11).
2009年
(1) K. Suzuki*, M. Haneda, H. Hamada, "Selective catalytic reduction of NO with fatty acid methyl ester as reductant over Ag/Al2O3 catalyst(脂肪酸メチルエステルを還元剤とするAg/Al2O3触媒による選択的NO還元反応)", Journal of the Japan Petroleum Institute, 50 (2), 60-64 (2009.3).
(2) A. Sultana*, M. Haneda*, H. Hamada, "A new concept of combined NH3-CO-SCR system for efficient NO reduction in excess oxygen", Applied Catalysis B: Environmental, 88 (1-2), 180-184 (2009.4).
(3) M. Haneda*, N. Aoki, K. Arimitsu, H. Hamada, "Activity enhancement of WO3-promoted Ir/SiO2 catalysts by high-temperature calcination for selective reduction of NO with CO", Bulletin of the Chemical Society of Japan, 82 (8), 1023-1029 (2009.8).
(4) E.C. Corbos*, M. Haneda, X. Courtois, P. Marecot, D. Duprez, H. Hamada, "NOx abatement for lean-burn engines under lean-rich atmosphere over mixed NSR-SCR catalysts: Influence of the addition of a SCR catalyst and of the operational conditions", Applied Catalysis A: General, 365 (2), 187-193 (2009.8).
(5) A. Sultana*, T. Nanba, M. Haneda, H. Hamada, "SCR of NOx with NH3 over Cu/NaZSM-5 and Cu/HZSM-5 in the presence of decane", Catalysis Communications, 10 (14), 1859-1863 (2009.8).
(6) T. Nanba*, A. Sultana, S. Masukawa, M. Haneda, J. Uchisawa, A. Obuchi, H. Hamada, "High resistance of Cu-ferrierite against coke formation during NH3-SCR in the presence of n-decane", Topics in Catalysis, 52 (13-20), 1766-1770 (2009.12).
(7) M. Sasaki*, A. Sulatana, M. Haneda, H. Hamada, "Practical evaluation of the catalytic performance of Ir/SiO2-based catalysts for selective reduction of NO with CO", Topics in Catalysis, 52 (13-20), 1803-1807 (2009.12).
(8) M. Haneda*, O. Houshito, H. Takagi, K. Shinoda, Y. Nakahara, K. Hiroe, T. Fujitani, H. Hamada, "Catalytic performance of aged Rh/CeO2-ZrO2 for NO-C3H6-O2 reaction under s stoichiometric condition", Topics in Catalysis, 52 (13-20), 1868-1872 (2009.12).
総説・解説 REVIEW
(1) 羽田 政明、「酸化セリウム触媒の表面酸素種とその反応性」、触媒 (Catalyst)、37 (8), 648-649 (1995.12).
(2) 角田 範義、羽田 政明、「不定比酸化セリウム触媒」、触媒 (Catalysts and Catalysis)、39 (4), 316-321 (1997.6).
(3) 羽田 政明、「COを還元剤とするNO選択還元触媒の開発」、ペトロテック、30 (7), 484-488 (2007.7).
(4) 羽田 政明、濵田 秀昭、「排出ガス浄化触媒の白金族金属使用量低減および代替技術」、自動車技術、63 (11), 42-47 (2009.11).
(5) H. Hamada*, M. Haneda, "A review of selective catalytic reduction of nitrogen oxides with hydrogen and carbon monoxide", Applied Catalysis A: General, 421-422, 1-13 (2012.4).
(6) 羽田 政明、「ロジウム-担体相互作用を利用した省ロジウム三元触媒の開発」、触媒 (Catalysysts and Catalysis)、54 (3), 167-172 (2012.4).
(7) 羽田 政明、「燃焼排ガス中の窒素酸化物を浄化するためのセラミックス触媒材料」、耐火物、65 (11), 522-530 (2013.11).
(8) 羽田 政明、土井 泰幸、「複合酸化物触媒による燃焼排ガス中の窒素酸化物の浄化」、セラミックス、51 (1), 27-30 (2016.1).
(9) 太田敏孝、日比野寿、安達信泰、羽田 政明、青山双渓幸、「瀬戸黒の分析 - 桃山陶と再現茶碗の比較 -」、セラミックス、51 (9), 562-567 (2016.9).
(10) M. Haneda*, "Ceramic materials as catalyst for direct decomposition of nitrogen oxides in cumbustion gas", Journal of the Technical Association of Refractories, Japan, 36 (3), 195-202 (2016.9).
(11) M. Haneda*, H. Hamada, "Recent progress in catalytic NO decomposition", Comptes Rendus Chimie, 19 (10), 1254-1265 (2016.10).
(12) 羽田政明、服部将朋、砥綿篤哉、「汎用元素からなる酸化物触媒による一酸化炭素の低温浄化の実現」、耐火物、69 (9), 465-471 (2017.9).
(13) 羽田政明、「自動車排ガス浄化触媒の in situ / operando 評価手法」、(株)住化分析センター SCSA NEWS、2018-I, 3-6 (2018.2)
(14) 羽田政明、「排ガス浄化触媒の表面キャラクタリゼーションとin situ反応解析」、月刊 ファインケミカル、48 (4), 12-18 (2019.4).
(15) M. Haneda*, A. Towata, M. Hattori, "Realization of Low-Temperature CO oxidation by Metal Oxide Catalyst Composed of Ubiquitous Elements", Journal of the Technical Association of Refractories, Japan, 39 (3), 197-203 (2019.9).
(14) 羽田政明、「貴金属の複合化による三元触媒活性の向上と省貴金属化」、月刊 マテリアルステージ、19 (8), 7-10 (2019.11)
(15) 羽田政明、「自動車排ガス浄化触媒の高機能化のための研究動向」、月刊 車載テクノロジー、8 (6), 39-43 (2021.3)
著書 BOOK
(1) 金属アルコキシドを用いる触媒調製(第1章・8節)「アルミナ担持酸化セリム触媒」、上野 晃史・水上 富士夫・袖澤 利昭 編著、アイピーシー、pp. 152-179 (1993.8).
(2) 自動車触媒の最新技術および劣化対策と貴金属低減 ~排出ガス低減に向けた開発・設計・評価~(第1章)「自動車触媒の概要と課題」、情報機構、pp. 11-30 (2010.12).
(3) 触媒調製ハンドブック(第2編・第3章) 「Ga2O3-Al2O3の調製」、岩本 正和 監修、エヌ・ティー・エス、pp. 190-191 (2011.4).
(4) IR分析テクニック事例集(第2部・第9章・16節)、奥村 治樹 監修、技術情報協会、pp. 394-397 (2013.9).
(5) 粉体・微粒子分析テクニック事例集(第2部・第3章・第7節~第9節)、技術情報協会、pp. 102-107 (2015.11).
(6) CERAMIC DATA BOOK 2016/17(測定・評価技術/製造・加工技術)「自動車排ガス浄化用触媒の評価技術」、工業製品技術協会、pp. 94-98 (2016.12).
(7) ディーゼルエンジン排気浄化における触媒材料およびシステムの開発・要素技術(第3章・第3節)「ディーゼル用途を中心とした排ガス触媒のキャラクタリゼーション・表面分析技術」、サイエンス&テクノロジー、pp. 109-130 (2017.3).
(8) 触媒の劣化対策、長寿命化(第12章・第1節)「白金族金属の複合化による排ガス浄化性能の向上と省資源化」、技術情報協会、pp. 527-536 (2020.11).
紀要・その他 BULLETIN
(1) 羽田 政明、濵田 秀昭、「ディーゼル排ガス中の窒素酸化物除去の触媒技術」、物質研NEWS、No.40, 平成11年11月号.
(2) 濵田 秀昭、羽田 政明、「研究室みせて -触媒によるエネルギー・環境問題の解決を目指してー」、ペトロテック、22 (7), 558-559 (1999.7).
(3) 羽田 政明、濵田 秀昭、「一酸化炭素を還元剤とするNO選択還元触媒の開発 -ディーゼル排ガスNOx浄化の解決に向けてー」、JITAニュースレター、(23), 2 (2009.10).
(4) 羽田 政明、「担持イリジウム触媒上での一酸化炭素を還元剤とするNO選択還元反応」、セラミックス基盤工学研究センター年報、IX, 9-21 (2010.3).
(5) 羽田 政明、「日本一暑いまち 多治見へ」、触媒 (Catalysts and Catalysis)、52 (8), 599-600 (2010.12).
(6) 羽田 政明、小澤 正邦、「ゾルゲル法によるGa2O3-Al2O3複合酸化物の調製と炭化水素を還元剤とするNO選択還元反応」、セラミックス基盤工学研究センター年報、X, 5-19 (2011.3).
(7) 小林 克敏、羽田 政明、小澤 正邦、「オレイン酸修飾沈殿法を用いたセリアナノ結晶の水熱合成」、セラミックス基盤工学研究センター年報、XI, 1-5 (2012.3).
(8) 羽田 政明、「水素を還元剤とするNO選択還元反応」、先進セラミックス研究センター年報、1, 15-21 (2013.3).
(9) 網本 正哉、羽田 政明、小澤 正邦、「セリアジルコニア系材料の合成と光学的特性の評価」、先進セラミックス研究センター年報、2, 1-5 (2014.6).
(10) 羽田 政明、「キャタリシス スクエアの報告」、触媒 (Catalysysts and Catalysis)、56 (6), 384-385 (2014.12).
(11) 服部 将朋、清木 晋、高木 修、羽田 政明、「非貴金属触媒を用いたハニカム触媒の作製と浄化性能評価」、先進セラミックス研究センター年報、3, 1-4 (2015.7).
(12) 服部 将朋、羽田 政明、「アルミニウム表面の酸化における白金添加の効果」、先進セラミックス研究センター年報、4, 2-5 (2016.7).
(13) 羽田 政明、「貴金属の異種元素との複合化による高活性な環境浄化触媒の創出」、新東技報、(34) 69-70 (2016.12)
(14) 羽田 政明、加藤聖崇、境 昭二、「酸化マグネシウムの物理化学的特性評価」、先進セラミックス研究センター年報、5, 44-51 (2017.6).
(15) 竹田光平、羽田 政明、「遷移金属添加によるAg/ZrO2のPM燃焼特性の改良」、先進セラミックス研究センター年報、6, 1-5 (2018.6).
(16) 加藤秀一郎、羽田 政明、「酸化ガリウムナノ粒子の合成とNO選択還元反応への応用」、先進セラミックス研究センター年報、6, 1-5 (2019.6).
(17) 山田省吾、田中真実、加藤秀一郎、羽田 政明、「吸着メタノール種の赤外吸収分光分析による酸化物表面の解析」、先進セラミックス研究センター年報、8, 8-12 (2020.6).
受賞など AWARDS
(1) 羽田 政明
平成18年度 石油学会野口記念奨励賞(平成19年5月17日)
研究テーマ:ディーゼル乗用車用新規排ガス処理技術に関する研究
(2) 中村 悠一郎・服部 将朋・羽田 政明
触媒学会西日本支部 第5回触媒科学研究発表会 優秀ポスター発表賞(平成26年6月13日)
題目:in situ FT-IR study of three-way catalytic reactions over supported Pd catalysts
(3) 中村 悠一郎・服部 将朋・羽田 政明
触媒学会西日本支部 第25回キャラクタリゼーション講習会 優秀ポスター賞(平成27年11月13日)
題目:in situ FT-IRによる担持貴金属触媒上での触媒反応解析
(4) 土井 泰幸
公益財団法人 永井科学技術財団 「平成27年度上期 大学院生海外研修助成金」
研修目的:ポワティエ大学にて機能性微粒子の複合化による大気環境浄化触媒に関する研究およ
び意見交換・調査、ナノスケールでの構造解析と設計手法の研修
渡航先・日程:フランス ポワティエ、H27.10.1~H28.3.31
(5) 羽田 政明
公益財団法人 永井科学技術財団 「第33回 永井学術賞」(平成28年3月14日)
研究テーマ:貴金属の異種元素との複合化による高活性な環境浄化触媒の創出
(6) 山田省吾
第1回 材料化学フロンティア研究院シンポジウム ポスター発表賞(FRIMSアワード)(平成28年12月8日)
題目:メタノール吸着種のIR測定により解析したCeO2-ZrO2系触媒の表面状態とOSC特性との関連性
2021年
(1) S. Tada, N. Asakuma, S. Ando, T. Asaka, Y. Daiko, S. Honda, M. Haneda, S. Bernard, R. Riedel, Y. Iwamoto*, "Novel hydrogen chemisorption properties of amorphous ceramic compounds consisting of p-block elements: exploring Lewis acid–base Al–N pair sites formed in situ within polymer-derived silicon–aluminum–nitrogen-based systems", Journal of Materials Chemistry A, 9 (5), 2959-2969 (2021.2).
(2) M. Haneda*, Y. Nakamura, T. Yamada, S. Minami, N. Kato, K. Iwashina, Y. Endo, Y. Nakahara, K. Iwachido, "Comprehensive study of light-off performance and surface property of engine-aged Pd-based three-way catalyst", Catalysis Science & Technology, 11 (3), 912-922 (2021.2).
(3) Y. Tomida, M. Haneda*, "Influence of crystal structure of Y-doped ZrO2 as support oxide on the three-way catalytic performance of supported Rh catalyst", Journal of the Ceramic Society of Japan, 129 (3), 168-174 (2021.3).
2020年
(1) Y. Aoyama, H. Kobayashi,* T. Yamamoto, T. Toriyama, S. Matsumura, M. Haneda, H. Kitagawa, "Significantly enhanced CO oxidation activity induced by a change in the CO adsorption site on Pd nanoparticles covered with metal–organic frameworks", Chemical Communications, 56, 3839-3842 (2020.4).
(2) T. Fuchigami*, R. Kimata, M. Haneda, K. Kakimoto, "Growth mechanism and CO oxidation catalytic activity of raspberry-shaped Co3O4 nanoparticles", Journal of the Ceramic Society of Japan, 128 (5), 291-297 (2020.5).
(3) Z. Liu*, B. Jia, Y. Zhang, M. Haneda, "Engineering the Metal−Support Interaction on Pt/TiO2 Catalyst to Boost the H2‑SCR of NOx", Industrial & Engineering Chemistry Research, 59 (31), 13916-13922 (2020.8).
(4) T. Fuchigami*, M. Kuroda, S. Nakamura, M. Haneda, K. Kakimoto, "Spiky-shaped niobium pentoxide nano-architecture: highly stable and recoverable Lewis acid catalyst", Nanotechnology, 31 (32), 325705 (2020.8).
(5) A. Lalea*, M. Debarba Mallmann, S. Tada, A. Bruma, S. Ozkar, R. Kumar, M. Haneda, R. Antonio F. Machado, Y. Iwamoto, U.B. Demirci, S. Bernard*, "Highly Active, Robust and Reusable Micro-/Mesoporous TiN/Si3N4 Nanocomposite-based Catalysts for Clean Energy: Understanding the Key Role of TiN Nanoclusters and Amorphous Si3N4 Matrix in the Performance of the Catalyst System", Applied Catalysis B: Environmental, 272, 118975 (2020.9).
(6) 津田豊史、三浦和也、木俣文和*、岩知道均一、中原祐之輔、堀 正雄、三木 健、細川三郎、朝倉博行、羽田政明、「高温還元したRh職日の排気ガス浄化反応と反応機構解析」、自動車技術会論文集、51 (5), 761-766 (2020.9).
(7) B. Huang, H. Kobayashi, T. Yamamoto, S. Matsumura, Y. Nishida, K. Sato, K. Nagaoka, M. Haneda, S. Kawaguchi, Y. Kubota, H. Kitagawa, "Coreduction methodology for immiscible alloys of CuRu solid-solution nanoparticles with high thermal stability and versatile exhaust purification ability", Chenical Science, 11, 11413-11418 (2020.11).
(8) A. Fujiwara, Y. Tsurunari, H. Yoshida, J. Ohyama, T. Yamada, M. Haneda, T. Miki, M. Machida*, "Thermal Deactivation of Pd/CeO2-ZrO2 Three-Way Catalysts during Real Engine Aging: Analysis by a Surface plus Peripheral Site Model", ACS Omega, 5 (44), 28897-28906 (2020.11)
2019年
(1) B. Huang, H. Kobayashi,* T. Yamamoto, T. Toriyama, S. Matsumura, Y. Nishida, K. Sato, K. Nagaoka, M. Haneda, W. Xie, Y. Nanba, M. Koyama, F. Wang, S. Kawaguchi, Y. Kubota, H. Kitagawa, "A CO Adsorption Site Change Induced by Copper Substitution in a Ruthenium Catalyst for Enhanced CO Oxidation Activity", Angewandte Chemie International Edition, 58, 2230-2235 (2019.2).
(2) M. Machida*, A. Fujiwara, H. Yoshida, J. Ohyama, H. Asakura, S. Hosokawa, T. Tanaka, M. Haneda, A. Tomita, T. Miki, K. Iwashina, Y. Endo, Y. Nakahara, S. Minami, N. Kato, Y. Hayashi, H. Goto, M. Hori, T. Tsuda, K. Miura, F. Kimata, K. Iwachido, "Deactivation Mechanism of Pd/CeO2-ZrO2 Three-Way Catalysts Analyzed by Chassis-Dynamometer Tests and in situ Diffuse Reflectance Spectroscopy", ACS Catalysis, 9 (7), 6415-6424 (2019.7).
(3) M. Haneda*, M. Tanaka, Y. Doi, N. Bion, "Preface: The 8th Japan–China Workshop on Environmental Catalysis and Eco-Materials was held in Tsukuba, Japan, December 5–6, 2017", Catalysis Today, 332, 1 (2019.7).
(4) 小川 誠、棚橋晃毅、岩知道均一*、南 茂和、加藤尚弘、後藤秀樹、羽田政明、「熱耐久したPd触媒のライトオフ特性とFT-IRによるPd粒子表面状態解析」、自動車技術会論文集、50 (5), 1288-1293 (2019.9).
(5) K. Kusatsugu, Y. Nakamura, M. Haneda*, "Three-way catalytic performance of Fe-doped Pd/CeO2-ZrO2 under lean/rich perturbation conditions", Applied Catalysis A: General, 587, 117268 (2019.10).
2018年
(1) 羽田政明*、「in situ 赤外吸収分光法を活用した排ガス浄化触媒の評価および反応解析」、自動車技術会シンポジウム No.19-17, 20174989 (2018.2).
(2) Y. Doi, M. Haneda*, "Catalytic performance of supported Ir catalysts for NO reduction with C3H6 and CO in slight lean conditions", Catalysis Today, 303, 8-12 (2018.3).
(3) T. Fuchigami*, R. Kimata, M. Haneda, K. Kakimoto, "Complex Three-Dimensional Co3O4 Nano-Raspberry: Highly Stable and Active Low-temperature CO", Nanomaterials, 8 (9), 662 (2018.9).
(4) M. Haneda*, M. Tanaka, Y. Doi, N. Bion, "Oxidative coupling of methane over Ba-doped Y2O3 catalyst – Similarity with active site for direct decomposition of NO", Molecular Catalysis, 457, 74-81 (2018.10). Editor's Choice paper
(5) M. Haneda*, Y. Katsuragawa, Y. Nakamura, A. Towata, "Promoting Effect of Cerium Oxide on the Catalytic Performance of Yttrium Oxide for Oxidative Coupling of Methane", Frontiers in Chemistry, 6, 581 (2018.11).
2017年
(1) M. Haneda*, Y. Tomida, T. Takahashi, Y. Azuma, T. Fujimoto, "Three-way catalytic performance and change in the valence state of Rh in Y- and Pr-doped Rh/ZrO2 under lean/rich perturbation conditions", Catalysis Communications, 90, 1-4 (2017.3).
(2) M. Haneda*, M. Todo, Y. Nakamura, M. Hattori, "Effect of Pd dispersion on the catalytic activity of Pd/Al2O3 for C3H6 and CO oxidation", Catalysis Today, 281 (Part 3), 447-453 (2017.3).
(3) M. Ozawa*, M. Takahashi-Morita, K. Kobayashi, M. Haneda, "Core-shell typ ceria zirconia support for platinum and rhodium three way catalysts", Catalysis Today, 281 (Part 3), 482-489 (2017.3).
(4) M. Haneda*, Y. Kawaguchi, A. Towata, "CoOx-FeOx composite oxide prepared by hydrothermal method as a highly active catalyst for low-temperature CO oxidation", Journal of the Ceramic Society of Japan, 125 (3), 135-140 (2017.3).
(5) M. Haneda*, K. Takamura, Y. Doi, N. Bion, L. Vivier, "Synthesis of ordered porous zirconia containing sulfate ions and evaluation of its surface acidic properties", Journal of Materials Science, 52 (10), 5835-5845 (2017.5).
2016年
(1) M. Hattori*, M. Haneda, M. Ozawa, "Influence of Ce/Zr ratio on CO oxidation activity of ceria-zirconia supported Cu catalyst", Journal of the Japan Applied Physics, 55 (1S), 01AE05 (2016.1).
(2) M. Haneda*, Y. Tomida, S. Sawada, M. Hattori, "Effect of rare earth additives on the catalytic performance of Rh/ZrO2 three-way catalyst", Topics in Catalysis, 59 (10), 105-1064 (2016.7).
(3) M. Haneda*, H. Hamada, "Recent progress in catalytic NO decomposition", Comptes Rendus Chimie, 19 (10), 1254-1265 (2016.10).
(4) M. Haneda*, Y. Ota, Y. Doi, M. Hattori, "Preparation, charaterization and activity of SnO2 nanoparticles supported on Al2O3 as a catalyst for the selective reduction of NO with C3H6", Journal of Materials Science, 51 (24), 10949-10959 (2016.12).
2015年
(1) Y. Doi, M. Haneda*, M. Ozawa, "Promoting effect of CeO2 on the catalytic activity of Ba-Y2O3 for direct decomposition of NO", Bulletin of the Chemical Society of Japan, 88 (1), 117-123 (2015.1).
(2) N. Kamiuchi*, M. Haneda, M. Ozawa, "Propene oxidation over palladium catalysts supported on zirconia rich ceria-zirconia", Catalysis Today, 241 (Part A), 100-106 (2015.3).
(3) M. Ozawa*, T. Okouchi, M. Haneda, "Three way catalytic activity of thermally degenerated Pt/Al2O3 and Pt/CeO2-ZrO2 modified Al2O3 model catalysts", Catalysis Today, 242 (Part B), 329-337 (2015.3).
(4) M. Haneda*, A. Towata, "Catalytic performance of supported Ag nano-particles prepared by liquid phase chemical reduction for soot oxidation", Catalysis Today, 242 (Part B), 351-356 (2015.3).
(5) M. Haneda*, T. Kaneko, N. Kamiuchi, M. Ozawa, "Improved three-way catalytic activity of bimetallic Ir-Rh catalysts supported on CeO2-ZrO2", Catalysis Science & Technology, 5 (3), 1792-1800 (2015.3)
(6) M. Haneda*, R. Taguchi, M. Hattori, "Influence of particles morphology on catalytic performance of CeO2/ZrO2 for soot oxidation", Journal of the Ceramics Society of Japan, 123 (5), 414-418 (2015.5)
(7) M. Haneda*, M. Sasaki, H. Hamada, , "Development of diesel hydrocarbon oxidation catalyst aiming at reducing platinum group metals usage(白金族金属の使用量低減を目指したディーゼル酸化触媒の開発)", Journal of the Japan Petroleum Institute, 58 (4), 205-217 (2015.7))
2014年
(1) K. Li, M. Haneda, P. Ning, H. Wang, M. Ozawa*, "Microstructre and oxygen evolution of Fe-Ce mixed oxides by redox treatment", Applied Surface Science, 289, 378-383 (2014.1).
(2)Y. Doi, M. Haneda*, M. Ozawa, "Direct decomposition of NO on Ba catalysts supported on rare earth oxides", Journal of Molecular Catalysis A: Chemicals, 383-384, 70-76 (2014.3).
(3) M. Haneda*, K. Suzuki, M. Sasaki, H. Hamada, M. Ozawa, "Catalytic performance of bimetallic PtPd/Al2O3 for diesel hydrocarbon oxidation and its implementation by acidic additives", Applied Catalysis A: General, 475, 109-115 (2014.4).
(4) J. Uchisawa*, T. Tango, A. Caravella, S. Hara, M. Haneda, T. Murakami, H. Nakagawa, T. Nanba, A. Obuchi, "Effects of the Extent of Silica Doping and the Mesopore Size of an Alumina Support on Activity", Industrial & Engineering Chemical Research, 53 (19), 7992-7998 (2014.5).
(5) 網本正哉、羽田政明、小澤正邦, 「酸化鉄を導入したセリアジルコニア材料の合成と分光特性の評価」, 材料, 63 (6), 432-436 (2014.6).
(6) N. Kamiuchi*, M. Haneda, M. Ozawa, "Enhancemnet of OSC property of Zr rich ceria-zirconia by loading a small amount of platinum", Catalysis Today, 232, 179-184 (2014.9).
(7) M. Haneda*, T. Kaneko, N. Kamiuchi, M. Ozawa, "Bimetallic IrRh/CeO2-ZrO2 as a highly active catalysts for NO-CO-C3H6-H2-O2 reactions under stoichiometric conditions", Chemistry Letters, 43 (12), 1852-1854 (2014.12)
2013年
(1) M. Ozawa*, H. Yuzuriha, M. Haneda, "Total oxidation of toluene and oxygen storage capacity of zirconia-sol modified ceria zirconia", Catalysis Communications, 30, 32-35 (2013.1).
(2) M. Haneda*, H. Sawada, N. Kamiuchi, M. Ozawa, "Promoting effect of CeO2 on the catalytic activity of Rh supported on Y-stabilized ZrO2 for NO-CO-C3H6-O2 reactions", Chemistry Letters, 42 (1), 60-62 (2013.1).
(3) K. Li, M. Haneda, G. Zhenhua, H. Wang, M. Ozawa*, "Modification of CeO2 on the redox property of Fe2O3", Materials Letters, 93, 129-132 (2013.2).
(4) K. Kobayashi*, M. Haneda, M. Ozawa, "Preparation of organic-modified ceria nanocrystals with hydrothermal treatment", Ceramic Transactions, 239, 195-204 (2013).
(5) M. Hattori, M. Haneda, M. Ozawa*, "Oxygen release property of ceria/alumina composite powder in reducing atmosphere at low temperatures", Journal of the
(6) M. Haneda*, M. Bonne, D. Duprez, M. Ozawa, "Effect of Y-stabilized ZrO2 as support on catalytic performance of Pt for n-butane oxidation", Catalysis Today, 201, 25-31 (2013.3).
(7) N. Kamiuchi*, M. Haneda, M. Ozawa, "Comparative study of CO oxidation activities over Pt/Ce-Zr oxide and Pt/Al2O3 catalysts", Catalysis Today, 201, 79-84 (2013.3).
(8) M. Sasaki*, K. Suzuki, A. Sultana, M. Haneda, H. Hamada, "Effect of acid-base properties on the catalytic activity of Pt/Al2O3 based catalysts for diesel NO oxidation", Topics in Catalysis, 56 (1-8), 205-209 (2013.5).
(9) M. Haneda*, M. Sasaki, H. Hamada, M. Ozawa, "Effect of Pt dispersion on the catalytic activity of supported Pt catalysts for diesel hydrocarbon oxidation", Topics in Catalysis, 56 (1-8), 249-254 (2013.5).
(10) 網本正哉、羽田政明、小澤正邦, 「セリア-ジルコニア-テルビア系固溶体の合成と分光特性評価」, 材料, 62 (6), 377-381 (2013.6).
(11) K. Li, M. Haneda, M. Ozawa*, "Oxygen release - absorption properties and structural stability of Ce0.8Fe0.2O2-x", Journal of Materials Science, 48, 5733-5743 (2013.9).
(12) M. Haneda*, T. Watanabe, N. Kamiuchi, M. Ozawa, "Effect of platinum dispersion on the activity of Pt/Al2O3 for the oxidation of carbon monoxide and propene", Applied Catalysis B: Environmental, 142, 8-14 (2013.10).
2012年
(1) K. Li*, M. Haneda, M. Ozawa, "The synthesis of iron oxides with different phases or exposure crystal planes and their catalytic property for propene oxidation", Advanced Materials Research, 463-464, 189-193 (2012.2).
(2) K. Kobayashi*, M. Haneda, M. Ozawa, "Hydrothermal synthesis of CeO2 nanocrystals using oleate-modified precipitation method", Advanced Materials Research, 463-464, 1501-1505 (2012.2).
(3) 網本正哉、木村健志、羽田政明、小澤正邦, 「セリアジルコニア系粉末の共沈法による合成と分光特性評価」, 粉体および粉末冶金, 59 (2), 75-79 (2012.2).
(4) M. Ozawa*, O. Kato, N. Tanaka, W. Yan, M. Haneda, "Effect of lanthanum addition on thermal stability and benzene removal activity of iron oxide/alumina composite powders", Journal of the
(5) M. Bonne*, M. Haneda, D. Duprez, M. Ozawa, "Effect of addition on Y2O3 in ZrO2 support on n-butane Pt catalyzed oxidation", Catalysis Communications, 19, 74-79 (2012.3).
(6) H. Hamada*, M. Haneda, "Development of Iridium Catalysts for Selective Reduction of NO with CO(一酸化炭素によるNO選択還元用イリジウム触媒の研究開発)", Journal of the Japan Petroleum Institute, 55 (2), 87-98 (2012.3).
(7) H. Hamada*, M. Haneda, "A review of selective catalytic reduction of nitrogen oxides with hydrogen and carbon monoxide", Applied Catalysis A: General, 421-422, 1-13 (2012.4).
(8) M. Haneda*, T. Watanabe, M. Ozawa, "Surface characterization of platinum nano-particles supported on alumina: behavior of hydrogen adspecies", Journal of the Japan Petroleum Institute, 55 (3), 191-196 (2012.5).
(9) K. Li, M. Haneda, M. Ozawa*, "Enhancement of reducibility and oxygen storage capacity (OSC) of Ce-Fe mixed oxides by repetitive redox treatment", Chemistry Letters, 41 (8), 837-838 (2012.8).
(10) K. Kobayashi*, M. Haneda, M. Ozawa, "Dispersion of Oleate-modified CeO2 Nanocrystals in Non-Polar Solvent and Aqueous Solution", ECS Transactions, 50 (27), 39-49 (2012.10).
2011年
(1) M. Haneda*, N. Aoki, M. Sasaki, H. Hamada, "Catalytic performance of Ir/CeO2 for NO-C3H6-O2 reaction in a stoichiometric condition", Applied Catalysis A: General, 394 (1-2), 239-244 (2011.2).
(2) A. Sultana*, T. Nanba, M. Sasaki, M. Haneda, K. Suzuki, H. Hamada, "Selective catalytic reduction of NO with NH3 over different copper exchanged zeolites in the presence of decane", Catalysis Today, 164 (1), 495-499 (2011.4).
(3) M. Haneda*, M. Sasaki, H. Hamada, M. Ozawa, "Platinum-based catalyst for diesel hydrocarbon oxidation", Chinese Journal of Catalysis, 32 (5), 777-781 (2011.5).
(4) M. Haneda*, M. Sasaki, H. Hamada, M. Ozawa, "In situ FT-IR study of diesel hydrocarbon oxidation over Pt/Al2O3 catalyst", Catalysis Letters, 141 (9), 1262-1267 (2011.9).
(5) M. Hattori, M. Haneda, M. Ozawa, "The effect of heat treatment on interaction, microstructure and oxygen storage capacity of Pt added CeO2 on Al2O3", Journal of the Japan Society of Powder and Powder Metallurgy (粉体および粉末冶金), 58 (9), 511-515 (2011.9).
(6) M. Haneda*, Y. Doi, M. Ozawa, "Direct decomposition of NO over Ba-Y2O3 catalyst prepared by co-precipitation method", Bulletin of the Chemical Society of Japan, 84 (12), 1383-1389 (2011.12).
2010年
(1) M. Haneda*, O. Houshito, T. Sato, H. Takagi, K. Shinoda, Y. Nakahara, K. Hiroe, H. Hamada, "Improved activity of Rh/CeO2-ZrO2 three-way catalyst by high temperature ageing", Catalysis Communications, 11 (5), 317-321 (2010.1).
(2) M. Haneda*, H. Hamada, "Promotinal effect of H2O in the selective catalytic reduction of NO with CO over Ir/WO3/SiO2 catalyst", Journal of Catalysis, 273 (1), 39-49 (2010.7).
(3) A. Sultana*, T. Nanba, M. Haneda, M. Sasaki, H. Hamada, "Influence of co-cations on the formation of Cu+ species in Cu/ZSM-5 and its effect on selective catalytic reduction of NOx with NH3", Applied Catalysis B: Enviromental, 101 (1-2), 61-67 (2010.11).
(4) K. Suzuki*, M. Haneda, M. Sasaki, H. Hamada, "Effect of organics on activity of Cu/ZSM-5 catalyst for selective reduction of NO with NH3(Cu/ZSM-5触媒によるNOのNH3選択還元反応に与える共存有機物の影響)", Journal of the Japan Petroleum Institute, 53 (6), 355-358 (2010.11).
2009年
(1) K. Suzuki*, M. Haneda, H. Hamada, "Selective catalytic reduction of NO with fatty acid methyl ester as reductant over Ag/Al2O3 catalyst(脂肪酸メチルエステルを還元剤とするAg/Al2O3触媒による選択的NO還元反応)", Journal of the Japan Petroleum Institute, 50 (2), 60-64 (2009.3).
(2) A. Sultana*, M. Haneda*, H. Hamada, "A new concept of combined NH3-CO-SCR system for efficient NO reduction in excess oxygen", Applied Catalysis B: Environmental, 88 (1-2), 180-184 (2009.4).
(3) M. Haneda*, N. Aoki, K. Arimitsu, H. Hamada, "Activity enhancement of WO3-promoted Ir/SiO2 catalysts by high-temperature calcination for selective reduction of NO with CO", Bulletin of the Chemical Society of Japan, 82 (8), 1023-1029 (2009.8).
(4) E.C. Corbos*, M. Haneda, X. Courtois, P. Marecot, D. Duprez, H. Hamada, "NOx abatement for lean-burn engines under lean-rich atmosphere over mixed NSR-SCR catalysts: Influence of the addition of a SCR catalyst and of the operational conditions", Applied Catalysis A: General, 365 (2), 187-193 (2009.8).
(5) A. Sultana*, T. Nanba, M. Haneda, H. Hamada, "SCR of NOx with NH3 over Cu/NaZSM-5 and Cu/HZSM-5 in the presence of decane", Catalysis Communications, 10 (14), 1859-1863 (2009.8).
(6) T. Nanba*, A. Sultana, S. Masukawa, M. Haneda, J. Uchisawa, A. Obuchi, H. Hamada, "High resistance of Cu-ferrierite against coke formation during NH3-SCR in the presence of n-decane", Topics in Catalysis, 52 (13-20), 1766-1770 (2009.12).
(7) M. Sasaki*, A. Sulatana, M. Haneda, H. Hamada, "Practical evaluation of the catalytic performance of Ir/SiO2-based catalysts for selective reduction of NO with CO", Topics in Catalysis, 52 (13-20), 1803-1807 (2009.12).
(8) M. Haneda*, O. Houshito, H. Takagi, K. Shinoda, Y. Nakahara, K. Hiroe, T. Fujitani, H. Hamada, "Catalytic performance of aged Rh/CeO2-ZrO2 for NO-C3H6-O2 reaction under s stoichiometric condition", Topics in Catalysis, 52 (13-20), 1868-1872 (2009.12).
総説・解説 REVIEW
(1) 羽田 政明、「酸化セリウム触媒の表面酸素種とその反応性」、触媒 (Catalyst)、37 (8), 648-649 (1995.12).
(2) 角田 範義、羽田 政明、「不定比酸化セリウム触媒」、触媒 (Catalysts and Catalysis)、39 (4), 316-321 (1997.6).
(3) 羽田 政明、「COを還元剤とするNO選択還元触媒の開発」、ペトロテック、30 (7), 484-488 (2007.7).
(4) 羽田 政明、濵田 秀昭、「排出ガス浄化触媒の白金族金属使用量低減および代替技術」、自動車技術、63 (11), 42-47 (2009.11).
(5) H. Hamada*, M. Haneda, "A review of selective catalytic reduction of nitrogen oxides with hydrogen and carbon monoxide", Applied Catalysis A: General, 421-422, 1-13 (2012.4).
(6) 羽田 政明、「ロジウム-担体相互作用を利用した省ロジウム三元触媒の開発」、触媒 (Catalysysts and Catalysis)、54 (3), 167-172 (2012.4).
(7) 羽田 政明、「燃焼排ガス中の窒素酸化物を浄化するためのセラミックス触媒材料」、耐火物、65 (11), 522-530 (2013.11).
(8) 羽田 政明、土井 泰幸、「複合酸化物触媒による燃焼排ガス中の窒素酸化物の浄化」、セラミックス、51 (1), 27-30 (2016.1).
(9) 太田敏孝、日比野寿、安達信泰、羽田 政明、青山双渓幸、「瀬戸黒の分析 - 桃山陶と再現茶碗の比較 -」、セラミックス、51 (9), 562-567 (2016.9).
(10) M. Haneda*, "Ceramic materials as catalyst for direct decomposition of nitrogen oxides in cumbustion gas", Journal of the Technical Association of Refractories, Japan, 36 (3), 195-202 (2016.9).
(11) M. Haneda*, H. Hamada, "Recent progress in catalytic NO decomposition", Comptes Rendus Chimie, 19 (10), 1254-1265 (2016.10).
(12) 羽田政明、服部将朋、砥綿篤哉、「汎用元素からなる酸化物触媒による一酸化炭素の低温浄化の実現」、耐火物、69 (9), 465-471 (2017.9).
(13) 羽田政明、「自動車排ガス浄化触媒の in situ / operando 評価手法」、(株)住化分析センター SCSA NEWS、2018-I, 3-6 (2018.2)
(14) 羽田政明、「排ガス浄化触媒の表面キャラクタリゼーションとin situ反応解析」、月刊 ファインケミカル、48 (4), 12-18 (2019.4).
(15) M. Haneda*, A. Towata, M. Hattori, "Realization of Low-Temperature CO oxidation by Metal Oxide Catalyst Composed of Ubiquitous Elements", Journal of the Technical Association of Refractories, Japan, 39 (3), 197-203 (2019.9).
(14) 羽田政明、「貴金属の複合化による三元触媒活性の向上と省貴金属化」、月刊 マテリアルステージ、19 (8), 7-10 (2019.11)
(15) 羽田政明、「自動車排ガス浄化触媒の高機能化のための研究動向」、月刊 車載テクノロジー、8 (6), 39-43 (2021.3)
著書 BOOK
(1) 金属アルコキシドを用いる触媒調製(第1章・8節)「アルミナ担持酸化セリム触媒」、上野 晃史・水上 富士夫・袖澤 利昭 編著、アイピーシー、pp. 152-179 (1993.8).
(2) 自動車触媒の最新技術および劣化対策と貴金属低減 ~排出ガス低減に向けた開発・設計・評価~(第1章)「自動車触媒の概要と課題」、情報機構、pp. 11-30 (2010.12).
(3) 触媒調製ハンドブック(第2編・第3章) 「Ga2O3-Al2O3の調製」、岩本 正和 監修、エヌ・ティー・エス、pp. 190-191 (2011.4).
(4) IR分析テクニック事例集(第2部・第9章・16節)、奥村 治樹 監修、技術情報協会、pp. 394-397 (2013.9).
(5) 粉体・微粒子分析テクニック事例集(第2部・第3章・第7節~第9節)、技術情報協会、pp. 102-107 (2015.11).
(6) CERAMIC DATA BOOK 2016/17(測定・評価技術/製造・加工技術)「自動車排ガス浄化用触媒の評価技術」、工業製品技術協会、pp. 94-98 (2016.12).
(7) ディーゼルエンジン排気浄化における触媒材料およびシステムの開発・要素技術(第3章・第3節)「ディーゼル用途を中心とした排ガス触媒のキャラクタリゼーション・表面分析技術」、サイエンス&テクノロジー、pp. 109-130 (2017.3).
(8) 触媒の劣化対策、長寿命化(第12章・第1節)「白金族金属の複合化による排ガス浄化性能の向上と省資源化」、技術情報協会、pp. 527-536 (2020.11).
紀要・その他 BULLETIN
(1) 羽田 政明、濵田 秀昭、「ディーゼル排ガス中の窒素酸化物除去の触媒技術」、物質研NEWS、No.40, 平成11年11月号.
(2) 濵田 秀昭、羽田 政明、「研究室みせて -触媒によるエネルギー・環境問題の解決を目指してー」、ペトロテック、22 (7), 558-559 (1999.7).
(3) 羽田 政明、濵田 秀昭、「一酸化炭素を還元剤とするNO選択還元触媒の開発 -ディーゼル排ガスNOx浄化の解決に向けてー」、JITAニュースレター、(23), 2 (2009.10).
(4) 羽田 政明、「担持イリジウム触媒上での一酸化炭素を還元剤とするNO選択還元反応」、セラミックス基盤工学研究センター年報、IX, 9-21 (2010.3).
(5) 羽田 政明、「日本一暑いまち 多治見へ」、触媒 (Catalysts and Catalysis)、52 (8), 599-600 (2010.12).
(6) 羽田 政明、小澤 正邦、「ゾルゲル法によるGa2O3-Al2O3複合酸化物の調製と炭化水素を還元剤とするNO選択還元反応」、セラミックス基盤工学研究センター年報、X, 5-19 (2011.3).
(7) 小林 克敏、羽田 政明、小澤 正邦、「オレイン酸修飾沈殿法を用いたセリアナノ結晶の水熱合成」、セラミックス基盤工学研究センター年報、XI, 1-5 (2012.3).
(8) 羽田 政明、「水素を還元剤とするNO選択還元反応」、先進セラミックス研究センター年報、1, 15-21 (2013.3).
(9) 網本 正哉、羽田 政明、小澤 正邦、「セリアジルコニア系材料の合成と光学的特性の評価」、先進セラミックス研究センター年報、2, 1-5 (2014.6).
(10) 羽田 政明、「キャタリシス スクエアの報告」、触媒 (Catalysysts and Catalysis)、56 (6), 384-385 (2014.12).
(11) 服部 将朋、清木 晋、高木 修、羽田 政明、「非貴金属触媒を用いたハニカム触媒の作製と浄化性能評価」、先進セラミックス研究センター年報、3, 1-4 (2015.7).
(12) 服部 将朋、羽田 政明、「アルミニウム表面の酸化における白金添加の効果」、先進セラミックス研究センター年報、4, 2-5 (2016.7).
(13) 羽田 政明、「貴金属の異種元素との複合化による高活性な環境浄化触媒の創出」、新東技報、(34) 69-70 (2016.12)
(14) 羽田 政明、加藤聖崇、境 昭二、「酸化マグネシウムの物理化学的特性評価」、先進セラミックス研究センター年報、5, 44-51 (2017.6).
(15) 竹田光平、羽田 政明、「遷移金属添加によるAg/ZrO2のPM燃焼特性の改良」、先進セラミックス研究センター年報、6, 1-5 (2018.6).
(16) 加藤秀一郎、羽田 政明、「酸化ガリウムナノ粒子の合成とNO選択還元反応への応用」、先進セラミックス研究センター年報、6, 1-5 (2019.6).
(17) 山田省吾、田中真実、加藤秀一郎、羽田 政明、「吸着メタノール種の赤外吸収分光分析による酸化物表面の解析」、先進セラミックス研究センター年報、8, 8-12 (2020.6).
受賞など AWARDS
(1) 羽田 政明
平成18年度 石油学会野口記念奨励賞(平成19年5月17日)
研究テーマ:ディーゼル乗用車用新規排ガス処理技術に関する研究
(2) 中村 悠一郎・服部 将朋・羽田 政明
触媒学会西日本支部 第5回触媒科学研究発表会 優秀ポスター発表賞(平成26年6月13日)
題目:in situ FT-IR study of three-way catalytic reactions over supported Pd catalysts
(3) 中村 悠一郎・服部 将朋・羽田 政明
触媒学会西日本支部 第25回キャラクタリゼーション講習会 優秀ポスター賞(平成27年11月13日)
題目:in situ FT-IRによる担持貴金属触媒上での触媒反応解析
(4) 土井 泰幸
公益財団法人 永井科学技術財団 「平成27年度上期 大学院生海外研修助成金」
研修目的:ポワティエ大学にて機能性微粒子の複合化による大気環境浄化触媒に関する研究およ
び意見交換・調査、ナノスケールでの構造解析と設計手法の研修
渡航先・日程:フランス ポワティエ、H27.10.1~H28.3.31
(5) 羽田 政明
公益財団法人 永井科学技術財団 「第33回 永井学術賞」(平成28年3月14日)
研究テーマ:貴金属の異種元素との複合化による高活性な環境浄化触媒の創出
(6) 山田省吾
第1回 材料化学フロンティア研究院シンポジウム ポスター発表賞(FRIMSアワード)(平成28年12月8日)
題目:メタノール吸着種のIR測定により解析したCeO2-ZrO2系触媒の表面状態とOSC特性との関連性
