原著論文
1) Highly Selective Linear
Dimerization of Styrenes by Ceria-Supported Ruthenium Catalysts
Shimura, S.; Miura, H.;
Tsukada, S.; Wada, K.; Hosokawa, S.; Inoue, M.
ChemCatChem 2012, DOI: 10.1002/cctc.201200342.
2) Active Ruthenium Catalysts
Based on Phosphine-modified Ru/CeO2 for the Selective Addition of
Carboxylic Acids to Terminal Alkynes
Nishiumi, M.; Miura, H.; Wada,
K.; Hosokawa, S.; Inoue, M.
ACS
Catalysis 2012, 2, 1753–1759.
3) Facile Preparation of Silica-supported Ti
Catalysts Effective for the Epoxidation of Cyclooctene using Ti-bridged
Silsesquioxanes
Wada, K.; Sakugawa S., Inoue, M.
Chem.
Commun. 2012, 48, 7991–7993.
4) Effect of Supports on Pd–Cu Bimetallic Catalysts
for Nitrate and Nitrite Reduction in Water
Wada, K.; Hirata, T.; Hosokawa, S.;
Iwamoto, S.; Inoue, M.
Catal.
Today 2012, 185, 81–87.
5) Synthesis of Highly Effective CeOx–MnOy–BaO
Catalysts for Direct NO Decomposition
Hong, W.-J.; Ueda, M.; Iwamoto, S.; Hosokawa, S.;
Wada, K.; Inoue, M.
Catal.
Lett. 2012, 142, 32–41.
6) Synthesis of Metastable Rare-Earth-Iron
Mixed Oxide with the Hexagonal Crystal Structure Saburo Hosokawa
Nishimura, T.; Hosokawa, S.; Masuda, Y.; Wada,
K.; Inoue, M.
J. Solid
State Chem. 2012, DOI: 10.1016/j.jssc.2012.08.056.
7) Intermolecular Coupling of Alkynes with
Acrylates by Recyclable Oxide-supported Ruthenium Catalysts: Formation of Distorted Ruthenium(IV)-oxo
Species on Ceria as a Key Precursor of Active Species
Miura, H.; Shimura, S.; Hosokawa, S.;
Yamazoe, S.; Wada, K.; Inoue, M.
Adv.
Synth. Catal. 2011, 353, 2837–2843.
8) Ceria-supported Ruthenium Catalysts for the Synthesis
of Indole via Dehydrogenative N-Heterocyclization
Shimura, S.; Miura, H.; Wada, K.; Hosokawa,
S.; Yamazoe, S.; Inoue, M.
Catal.
Sci. Technol. 2011, 1, 1340–1346.
9) Isomerication of n-Hexadecane over Pt–WO3 Catalysts Supported on TiO2–SiO2
Mixed Oxides Synthesized by a Glycothermal Method
Hosokawa, S.; Kamishima, S.; Kubo, K.; Kanai, H.;
Wada, K.; Inoue, M.
J.
Jpn. Petro. Inst. 2011, 54, 361–365.
10) Simple and Practical Aerobic Oxidation of
Alcohols Catalyzed by a (m-Oxo)tetraruthenium Cluster
Kondo, T.; Kanda, K.; Takagi, D.; Wada, K.;
Kimura, Y.; Toshimitsu, A.
Green Sus.
Chem. 2011, 1, 149–154.
11) Pore Structure of g-Ga2O3–Al2O3 Particles Prepared by Spray Pyrolysis
Watanabe, T.; Miki, Y.; Masuda, T.;
Kanai, H.; Hosokawa, S.; Wada, K.; Inoue, M.
Microporous
Mesoporous Mater. 2011, 145,
131–140.
12) Synthesis of g-Ga2O3–Al2O3 Solid Solutions by Spray Pyrolysis Method
Watanabe, T.; Miki, Y.; Masuda, T.;
Deguchi, H. Kanai, H.; Hosokawa, S.; Wada, K.; Inoue, M.
Ceram. Int. 2011, 37, 3183–3192.
13) Enhancement of the Activities of g-Ga2O3–Al2O3 Catalysts for
Methane-SCR of NO by Treatment with NH3
Watanabe, T.; Miki, Y.; Miyahara, Y.;
Masuda, T.; Deguchi, H. Kanai, H.; Hosokawa, S.; Wada, K.; Inoue, M.
Catal.
Lett. 2011, 141, 1338–1344.
14) Effect of Fe Content on Physical Properties
of BaO–CeOx–FeOy Catalysts for Direct NO Decomposition
Hong, W.-J.;
Ueda, M.; Iwamoto, S.; Hosokawa, S.; Wada, K.; Kanai, H.; Deguchi, H.; Inoue,
M.
Appl.
Catal. B Environmental 2011, 106, 142–148.
15) Effect of Mn Content on Physical Properties of
CeOx–MnOy Support and CeOx–MnOy–BaO
Catalysts for Direct NO Decomposition
Hong, W.-J.;
Iwamoto, S.; Hosokawa, S.; Wada, K.; Kanai, H.; Inoue, M.
J. Catal. 2011, 277, 208–216.
16) Optimized Synthesis Method for K/Co3O4
Catalyst towards Direct Decomposition of N2O
Yoshino, H.; Ohnishi, C. H.; Hosokawa,
S.; Wada, K.; Inoue, M.
J. Mater.
Sci. 2011, 46, 797–805.
17) Performance of g-Ga2O3-Al2O3
Solid Solutions Prepared by Spray Pyrolysis for CH4-SCR of NO
Watanabe, T.; Miki, Y.; Masuda, T.;
Kanai, H.; Hosokawa, S.; Wada, K.; Inoue, M.
Appl.
Catal. A General 2011, 396, 140–147.
18) Recyclable Solid Ruthenium Catalysts
Supported on Metal Oxides for the Addition of Carboxylic Acids to Terminal
Alkynes
Nishiumi, M.; Miura, H.; Wada, K.;
Hosokawa, S.; Inoue, M.
Adv.
Synth. Catal. 2010, 352, 3045–3052.
19) Catalytic Addition of Aromatic C-H Bonds to
Vinylsilanes in the Presence of Ru/CeO2
Miura, H.; Wada, K.; Hosokawa, S.;
Inoue, M.
ChemCatChem 2010,
2,
1223–1225.
【Wiley-VCH, the Hottest Article in Catalysis】
20) Recyclable Solid Ruthenium Catalysts for the
Direct Arylation of Aromatic C-H Bonds
Miura, H.; Wada, K.; Hosokawa, S.;
Inoue, M.
Chem. Eur.
J. 2010, 16, 4186–4189.
21) Ti-Bridged Silsesquioxanes as Precursors of
Silica-Supported Titanium Oxide Catalysts for the Epoxidation of Cyclooctene
Sakugawa, S.; Wada, K.; Inoue, M.
J. Catal. 2010,
275, 280–287.
22) Rhodium-Catalyzed Linear Codimerization and
Cycloaddition of Ketenes with Alkynes
Kondo, T.; Niimi, M.; Yoshida, Y.; Wada,
K.; Mitsudo, T.; Kimura, Y.; Toshimitsu, A.
Molecules 2010,
15, 4189-4200.
23) A Heterogeneous
Ru/CeO2 Catalyst Effective for Transfer-Allylation from Homoallyl
Alcohols to Aldehydes
Miura, H.; Wada,
K.: Hosokawa, S.; Sai, M.; Kondo, T.; Inoue, M.
Chem. Commun. 2009,
4112–4114.
24)
Rhodium-Catalyzed Decarbonylative Coupling Reactions of Diphenylketene
with Alkenes
Kondo, T.;
Tokoro, Y.; Ura, Y.; Wada, K.; Mitsudo, T.
ChemCatChem 2009,
1, 82–84.
25) Effect
of the Preparation Conditions of Ru/CeO2 Catalysts for the Liquid
Phase Oxidation of Benzyl Alcohol
Hosokawa,
S.; Hayashi, Y.; Imamura, S.; Wada, K.: Inoue, M.
Catal. Lett. 2009,
129, 394–399.
26) Ti-Containing Silsesquioxane Gels with
Tunable Porosity: Preparation and Catalytic Activity for the Epoxidation of
Cyclooctene by Aqueous Hydrogen Peroxide
Wada, K.: Hirabayashi, K.; Watanabe, N.; Yamamoto, S.;
Kondo, T.; Mitsudo, T.; Inoue, M.
Top. Catal. 2009,
52, 693–698.
27) Preparation of Porous Ruthenium Catalysts Utilizing
a Silsesquioxane Ligand; Catalytic Activity towards Hydroformylation of
1-Octene
Wada, K.: Tomoyose, R., Kondo, T., Mitsudo, T.
Appl.
Catal. A:General 2009, 356,
72–79.
著書
1) かご状シルセスキオキサンを活かした固体触媒の調製と高活性化
和田 健司
触媒の設計・反応制御 事例集(分担執筆), 技術情報協会, 2012, 印刷中.
総説
1) グリーン分子変換プロセスのための担持ルテニウム触媒の開発
和田健司; 三浦大樹
ケミカルエンジニヤリング
2012,
57, 679–684.
2) Development
of Ceria-Supported Ruthenium Catalysts Effective for Various Synthetic Reactions
Wada, K.; Hosokawa, S.;
Inoue, M.
Catal.
Surveys Asia
2011, 15, 1–11.
3) ケミカルズのグリーン合成に有効な酸化物担持Ru触媒
三浦大樹; 和田健司
機能材料
2011,
31, 27–34.
4) チタン含有シルセスキオキサンを活用したさまざまな形態のエポキシ化触媒の開発
和田健司
ファインケミカル
2010, 39, 39–45.
5)
新規ルテニウム錯体の創製と環境調和型有機合成反応用触媒への応用
近藤輝幸; 浦康之; 和田健司
化学工業
2009, 60, 489–497.
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