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Keigo Kamata
Education
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1997/03
Kogyokusha High School
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1997/04
The University of Tokyo, College of Arts and Sciences, Natural Sciences I
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2001/03
The University of Tokyo, Faculty of Engineering, Department of Applied Chemistry (Bachelor of Engineering, under the supervision of Prof. Noritaka Mizuno)
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2003/03
The University of Tokyo, School of Engineering, Department of Applied Chemistry (Master of Engineering, under the supervision of Prof. Noritaka Mizuno)
Academic Degree
Doctor of Engineering (2006/11, The University of Tokyo, under the supervision of Prof. Noritaka Mizuno)
Career
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2003/04
Mitsubishi Chemical Corporation
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2003/09
Japan Science and Technology Agency CREST Technical Staff
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2007/01
The University of Tokyo, School of Engineering, Department of Applied Chemistry, Mizuno Group, Assistant Professor
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2014/01
Tokyo Institute of Technology
Materials and Structures Laboratory
Associate Professor -
2015/12-2019/03
JST PRESTO "Innovative Catalysts"
Researcher -
2016/04
Tokyo Institute of Technology
Institute of Innovative Research, Laboratory for Materials and Structures【Reorganization】
Associate Professor
Award
CSJ Presentation Award 2009
CATSJ Presentation Award 2010
CSJ Award For Young Chemists 2012
TITECH Challenging Research Award 2017 (Granted a special award by the president)
The Young Scientists’ Priz of The Commendation for Science and Technology by the MEXT 2018
JACI The 7th Research Award for New Chemistry and Technology 2018
Part-time Lecturer (Intensive Course)
The University of Tokyo, Graduate School of Arts and Sciences(2019/9-2020/1)
The University of Tokyo, School of Engineering(2020/9-2021/3)
Research Field
Catalysis, Inorganic Synthesis Chemistry, Physical Chemistry
Database
Scopus Author ID: 7201749181
Web of Science ResearcherID: E-6997-2014
ORCID ID: 0000-0002-0624-8483
Publication: Journal | Review | Book
※OPEN ACCESS:Articles freely and permanently accessible for everyoneList of Cover Pictures
Journal
- “β-MnO2 Nanoparticles as Heterogenous Catalysts for Aerobic Oxidative Transformation of Alcohols to Carbonyl Compounds, Nitriles, and Amides”,
Keigo Kamata, Nanami Kinoshita, Maki Koutani, Ryusei Aono, Eri Hayashi, Michikazu Hara
Catalysis Science & Technology, 2022, 12, 6219-6230. (First published online: 2022/09/06)
DOI: 10.1039/D2CY01476A
- “Heterogeneous Low-valent Mn Catalysts for α-Alkylation of Ketones with Alcohols through Borrowing Hydrogen Methodology”,
Yusuke Kita, Midori Kuwabara, Keigo Kamata, Michikazu Hara
ACS Catalysis, 2022, 12, 11767-11775. (First published online: 2022/09/13)
DOI: 10.1021/acscatal.2c03085
- “Primary Amine Synthesis by Hydrogen-involving Reactions over Heterogeneous Cobalt Catalysts”,
Kahoko Kato, Dian Deng, Yusuke Kita, Keigo Kamata, Michikazu Hara
Catalysis Science & Technology, 2022, 12, 5425-5434. (First published online: 2022/07/22)
DOI: 10.1039/D2CY00870J
- “Synthesis and Aerobic Oxidation Catalysis of Mesoporous Todorokite-type Manganese Oxides Nanoparticles by Crystallization of Precursors”,
Maki Koutani, Eri Hayashi, Keigo Kamata, Michikazu Hara
Journal of the American Chemical Society, 2022, 144, 14090-14100. (First published online: 2022/07/20)
Supplementary Cover Art
DOI: 10.1021/jacs.2c02308
Highlighted in TokyoTech NEWS!
Interview article of Mr. Koutani was highlightend in Chem-station Spotlight Research. 2022/08/18
- “Stability Enhancement of Iron-based Perovskite Catalysts by A-Site Substitution for Oxidative Transposition of α-Bromostyrene to Phenacyl Bromide”,
Satomi Shibata, Keigo Kamata, Michikazu Hara
ChemCatChem, 2022, 14, e202200395. (First published online: 2022/06/10) OPEN ACCESS Front Cover
DOI: 10.1002/cctc.202200395
- “A Heterogeneous Cobalt Catalyst for C-C Bond Formation by Borrowing Hydrogen Strategy”,
Endah Suarsih, Yusuke Kita, Keigo Kamata, Michikazu Hara
Catalysis Science & Technology, 2022, 12, 4113-4117. (First published online: 2022/05/31)
DOI: 10.1039/D2CY00724J
- “A Trend in the Crystal Structures of Iron-based Oxides and their Catalytic Efficiencies for the Oxygen Evolution Reaction in Alkaline”,
Yuuki Sugawara, Satomi Ueno, Keigo Kamata, Takeo Yamaguchi
ChemElectroChem, 2022, 9, e202101679. (First published online: 2022/01/30) Front Cover Cover Profile
DOI: 10.1002/celc.202101679 - “Base-assisted Aerobic C–H Oxidation of Alkylarenes with a Murdochite-type Oxide Mg6MnO8 Nanoparticle Catalyst”,
Eri Hayashi, Takatoshi Tamura, Takeshi Aihara, Keigo Kamata, Michikazu Hara
ACS Applied Materials & Interfaces, 2022, 14, 6528–6537. (First published online: 2022/01/26) OPEN ACCESS (from 2023/01/26)
DOI: 10.1021/acsami.1c20080Highlighted in TokyoTech NEWS!
Nikkan Kogyo Shimbun 2022/02/09
- “Iron Phosphate Nanoparticle Catalyst for Direct Oxidation of Methane into Formaldehyde: Effect of Surface Redox and Acid-Base Properties”,
Aoi Matsuda, Haruka Tateno, Keigo Kamata, Michikazu Hara
Catalysis Science & Technology, 2021, 11, 6987-6998. (First published online: 2021/09/22) Inside back cover
DOI: 10.1039/D1CY01265G - “Comprehensive Structural Descriptor for Electrocatalytic Oxygen Evolution Activities of Iron Oxides”,
Yuuki Sugawara, Keigo Kamata, Eri Hayashi, Mitsuru Itoh, Yosuke Hamasaki, Takeo Yamaguchi
ChemElectroChem, 2021, 8, 4466-4471. (First published online: 2021/09/21) Cover picture
DOI: 10.1002/celc.202101235 - “Deposition of Highly Dispersed Gold Nanoparticles onto Metal Phosphates by Deposition-Precipitation with Aqueous Ammonia”,
Hidenori Nishio, Hiroki Miura, Keigo Kamata, Tetsuya Shishido
Catalysis Science & Technology, 2021, 11, 7141-7150. (First published online: 2021/09/21)
DOI: 10.1039/D1CY01627J - “Aerobic Oxidative C=C Bond Cleavage of Aromatic Alkenes by a High Valency Iron-containing Perovskite Catalyst”,
Satomi Shibata, Keigo Kamata, Michikazu Hara
Catalysis Science & Technology, 2021, 11, 2369-2373. (First published online: 2021/03/01) OPEN ACCESS Inside back cover
DOI: 10.1039/D1CY00245G - “Efficient Oxygen Evolution Electrocatalysis on CaFe2O4 and its Reaction Mechanism”,
Yuuki Sugawara, Keigo Kamata, Atsushi Ishikawa, Yoshitaka Tateyama,Takeo Yamaguchi
ACS Applied Energy Materials, 2021, 4, 3057–3066. (First published online: 2021/02/15) Supplementary Cover Art
DOI: 10.1021/acsaem.0c02710Highlighted in TokyoTech NEWS!
Nikkan Kogyo Shimbun Online Edition 2021/03/05
Nikkan Kogyo Shimbun 2021/03/05
Nihon Keizai Shimbun 2021/03/08
Sankei Shimbun Online Edition 2021/03/13
Nikkei Sangyo Shimbun 2021/03/22
Kagaku Kogyo Nippou 2021/04/07
- “Metal Oxide Electrocatalyst Support for Carbon-free Durable Electrodes with Excellent Corrosion Resistance at High Potential Conditions”,
Yuuki Sugawara, Takuya Hihara, Gopinathan M. Anilkumar, Keigo Kamata,Takeo Yamaguchi
Sustainable Energy & Fuels, 2021, 5, 1374-1378. (First published online: 2021/02/09)
DOI: 10.1039/D0SE01295E - “Electronic Effect in a Ruthenium Catalyst Designed in Nanoporous N-Functionalized Carbon for Efficient Hydrogenation of Heteroarenes”,
Debraj Chandra, Shikha Saini, Saswata Bhattacharya, Asim Bhaumik, Keigo Kamata, Michikazu Hara
ACS Applied Materials & Interfaces, 2020, 12, 52668–52677. (First published online: 2020/11/13)
DOI: 10.1021/acsami.0c15407 - “Effects of Ruthenium Hydride Species on Primary Amine Synthesis by Direct Amination of Alcohols over Heterogeneous Ru Catalyst”,
Yusuke Kita, Midori Kuwabara, Satoshi Yamadera, Keigo Kamata, Michikazu Hara
Chemical Science, 2020, 11, 9884-9890. (First published online: 2020/09/03) OPEN ACCESS
DOI: 10.1039/D0SC03858JHighlighted in Synfacts 2020, 16, 1460. DOI: 10.1055/s-0040-1706565
Highlighted in TITECH NEWS!
Nikkan Kogyo Shimbun 2020/09/18
- “One-pot Reductive Amination of Carbonyl Compounds with Nitro Compounds over Ni/NiO Composite”,
Yusuke Kita, Sayaka Kai, Lesandre Binti Supriadi Rustad, Keigo Kamata, Michikazu Hara
RSC Advances, 2020, 10, 32296-32300. (First published online: 2020/09/02) OPEN ACCESS
DOI: 10.1039/D0RA06937JHighlighted in Synfacts 2021, 17, 75. DOI: 10.1055/s-0040-1706566
- “Template-free Synthesis of Mesoporous β-MnO2 Nanoparticles: Structure, Formation Mechanism, and Catalytic Properties”,
Yui Yamaguchi, Ryusei Aono, Eri Hayashi, Keigo Kamata, Michikazu Hara
ACS Applied Materials & Interfaces, 2020, 12, 36004-36013. (First published online: 2020/07/30)
DOI: 10.1021/acsami.0c08043Highlighted in TokyoTech NEWS!
Kagaku Shimbun 2020/08/28
- “One-pot Aerobic Oxidative Sulfonamidation of Aromatic Thiols with Ammonia by a Dual-functional β-MnO2 Nanocatalyst”,
Eri Hayashi, Yui Yamaguchi, Yusuke Kita, Keigo Kamata, Michikazu Hara
Chemical Communications, 2020, 56, 2095-2098 (First published online: 2020/01/22) Back cover
DOI: 10.1039/C9CC09411C - “Benzylic C‐H Fluorination over Supported Silver Catalyst”,
Yusuke Kita, Shunsuke Shigetani, Keigo Kamata, Michikazu Hara
Molecular Catalysis, 2019, 475, 110463. (First published online: 2019/06/13)
DOI: 10.1016/j.mcat.2019.110463 - “Structure‐Function Relationships in Fructose Dehydration to 5‐Hydroxymethylfurfural under Mild Conditions by Porous Ionic Crystals Constructed with Analogous Building Blocks”,
Takumi Yamada, Keigo Kamata, Eri Hayashi, Michikazu Hara, Sayaka Uchida,
ChemCatChem, 2019, 11, 3745-3749. (First published online: 2019/04/23) Cover picture
DOI: 10.1002/cctc.201900614 - “Ambient-temperature Oxidative Coupling of Methane in an Electric Field by a Cerium Phosphate Nanorod Catalyst”,
Ayaka Sato, Shuhei Ogo, Keigo Kamata, Yuna Takeno, Tomohiro Yabe, Tomokazu Yamamoto, Syo Matsumura, Michikazu Hara, Yasushi Sekine,
Chemical Communications, 2019, 55, 4019-4022. (First published online: 2019/02/18) Back cover
DOI: 10.1039/C9CC00174C - “Extremely Active Hydrogen Evolution Catalyst Electrochemically Generated from a Ruthenium-Based Perovskite-Type Precursor”,
Yuuki Sugawara, Keigo Kamata, Takeo Yamaguchi,
ACS Applied Energy Materials, 2019, 2, 956-960. (First published online: 2019/02/01)
DOI: 10.1021/acsaem.8b01525 - “Effect of MnO2 Crystal Structure on Aerobic Oxidation of 5-Hydroxymethylfurfural to 2,5-Furandicarboxylic Acid”,
Eri Hayashi, Yui Yamaguchi, Keigo Kamata, Naoki Tsunoda, Yu Kumagai, Fumiyasu Oba, Michikazu Hara,
Journal of the American Chemical Society, 2019, em>141, 890-900. (First published online: 2019/01/07)
DOI: 10.1021/jacs.8b09917
Correction: Journal of the American Chemical Society, 2019, 141, 18642. (First published online: 2019/11/08)
DOI: 10.1021/jacs.9b11588Highlighted in TokyoTech NEWS!
Highlighted in JST Press Release!
Kagaku Kogyo Nippou 2019/01/09
Nikkei Sangyo Simbun 2019/01/17
- “Low-temperature Reductive Amination of Carbonyl Compounds over Ru-deposited on Nb2O5•nH2O”,
Deng Dian, Yusuke Kita, Keigo Kamata, Michikazu Hara,
ACS Sustainable Chemistry & Engineering, 2019, 7, 4692−4698. (First published online: 2018/12/19) Supplementary Cover Art
DOI: 10.1021/acssuschemeng.8b04324 - “Heterogeneously Catalyzed Aerobic Oxidation of Sulfides with a BaRuO3 Nanoperovskite”,
Keigo Kamata, Kosei Sugahara, Yuuki Kato, Satoshi Muratsugu, Yu Kumagai, Fumiyasu Oba, Michikazu Hara
ACS Applied Materials & Interfaces, 2018, 10, 23792-23801. (First published online: 2018/07/09)
DOI: 10.1021/acsami.8b05343Highlighted in TokyoTech NEWS!
Highlighted in JST Press Release!
Kagaku Kogyo Nippou 2018/07/12
- “High Performance Catalyst of Shape-specific Ruthenium Nanoparticles for Production of Primary Amines by Reductive Amination of Carbonyl Compounds”,
Debraj Chandra, Yasunori Inoue, Masato Sasase, Masaaki Kitano, Asim Bhaumik, Keigo Kamata, Hideo Hosono, Michikazu Hara
Chemical Science, 2018, 9, 5949-5956. (First published online: 2018/06/18) OPEN ACCESS
DOI: 10.1039/C8SC01197DHighlighted in TokyoTech NEWS!
Kagaku Kogyo Nippou 2018/07/03
- “Liquid-phase oxidation of alkanes with molecular oxygen catalyzed by high valent iron-based perovskite”,
Satomi Shibata, Kosei Sugahara, Keigo Kamata, Michikazu Hara
Chemical Communications, 2018, 54, 6772-6775. (First published online: 2018/04/16) Inside back cover
[Emerging Investigators Issue 2018]
DOI: 10.1039/C8CC02185F - “Electronic Effect of Ruthenium Nanoparticles on Efficient Reductive Amination of Carbonyl Compounds”,
Tasuku Komanoya, Takashi Kinemura, Yusuke Kita, Keigo Kamata, Michikazu Hara
Journal of the American Chemical Society, 2017, 139, 11493-11499. (First published online: 2017/07/31)
DOI: 10.1021/jacs.7b04481Highlighted in Synfacts 2017, 13, 1209 (DOI: 10.1055/s-0036-1591385)
Kagaku Kogyo Nippou 2017/08/15
- “Preparation of Mesoporous Basic Oxides through Assembly of Monodispersed Mg–Al Layered Double Hydroxide Nanoparticles”,
Yuya Oka, Yoshiyuki Kuroda, Takamichi Matsuno, Keigo Kamata, Hiroaki Wada, Atsushi Shimojima, and Kazuyuki Kuroda
Chemistry - A European Journal, 2017, 23, 9362–9368. (First published online: 2017/06/22)
DOI: 10.1002/chem.201701282 - “Amino Acid-aided Synthesis of a Hexagonal SrMnO3 Nanoperovskite Catalyst for Aerobic Oxidation”,
Kosei Sugahara, Keigo Kamata, Satoshi Muratsugu, Michikazu Hara
ACS Omega, 2017, 2, 1608-1616. (First published online: 2017/04/24) OPEN ACCESS
DOI: 10.1021/acsomega.7b00146 - “A Bifunctional Cerium Phosphate Catalyst for Chemoselective Acetalization”,
Shunsuke Kanai, Ippei Nagahara, Yusuke Kita, Keigo Kamata, and Michikazu Hara
Chemical Science, 2017, 8, 3146-3153. (First published online: 2017/02/07) OPEN ACCESS
DOI: 10.1039/C6SC05642C
Highlighted in Synfacts 2017, 13, 0778 (DOI: 10.1055/s-0036-1590610)
Nikkei Sangyo Shimbun 2017/02/23
Kagaku Kogyo Nipopou 2017/02/27
Kagaku Shimbun 2017/03/10
- “Heterogeneously-catalyzed Aerobic Oxidation of 5-Hydroxymethylfurfural to 2,5-Furandicarboxylic Acid with Manganese Dioxide”,
Eri Hayashi, Tasuku Komanoya, Keigo Kamata, and Michikazu Hara
ChemSusChem, 2017, 10, 654-658. (First published online: 2017/01/11) Back Cover
DOI: 10.1002/cssc.201601443 - “Photoassist-phosphorylated TiO2 as a catalyst for direct formation of 5-(hydroxymethyl)furfural from glucose”,
Masashi Hattori, Keigo Kamata, and Michikazu Hara
Physical Chemistry Chemical Physics, 2017, 19, 3688-3693. (First published online: 2016/12/23)
DOI: 10.1039/C6CP06864B - “Dioxygen Activation by a Hexagonal SrMnO3 Perovskite Catalyst for Aerobic Liquid-Phase Oxidation”,
Shuma Kawasaki, Keigo Kamata, and Michikazu Hara
ChemCatChem, 2016, 8, 3247-3253. (First published online: 2016/08/05) Back Cover
DOI: 10.1002/cctc.201600613 - “A Combined Catalyst of Pt Nanoparticles and TiO2 with Water-tolerant Lewis Acid Sites for One-pot Conversion of Glycerol to Lactic acid”,
Tasuku Komanoya, Ayaka Suzuki, Kiyotaka Nakajima, Masaaki Kitano, Keigo Kamata, and Michikazu Hara,
ChemCatChem, 2016, 8, 1094–1099.(First published online: 2016/02/17)
DOI: 10.1002/cctc.201501197 - “Formation of 5-(Hydroxymethyl)furfural by Stepwise Dehydration over TiO2 with Water-Tolerant Lewis Acid Sites”,
Ryouhei Noma, Kiyotaka Nakajima, Keigo Kamata, Masaki Kitano, Shigenobu Hayashi, Michikazu Hara,
J. Phys. Chem. C, 2015, 119, 17117–17125. (First published online: 2015/06/22)
DOI: 10.1021/acs.jpcc.5b03290 - “Synthesis and Oxidation Catalysis of a Ti-substituted Phosphotungstate, and Identification of the Active Oxygen Species”,
Eri Takahashi, Keigo Kamata, Yuji Kikukawa, Sota Sato, Kosuke Suzuki, Kazuya Yamaguchi, and Noritaka Mizuno,
Catalysis Science & Technology, 2015, 5, 4778-4789. (First published online: 2015/08/07)
DOI: 10.1039/C5CY01031DK - “Synthesis and Structural Characterization of BINOL-modified Chiral Polyoxometalates”,
Ryo Ishimoto, Keigo Kamata, Kosuke Suzuki, Kazuya Yamaguchi,Noritaka Mizuno,
Dalton Transactions, 2015, 44, 10947-10951. (First published online: 2015/05/12)
DOI: 10.1039/C5DT01338K - “Synthesis, Structural Characterization, and Oxidation Catalysis of a Diniobium-substituted Silicodecatungstate”,
Naoto Satake, Tomohisa Hirano, Keigo Kamata, Kosuke Suzuki, Kazuya Yamaguchi, Noritaka Mizuno,
Chemistry Letters, 2015, 44, 899-901. (First published online: 2015/04/09)
DOI: 10.1246/cl.150213 - “Heterogeneously Catalyzed Selective Oxidation with Aqueous Hydrogen Peroxide by [PO4{WO(O2)2}4]3- Supported on Zinc-Modified Tin Dioxide”,
Susumu Nojima, Keigo Kamata, Kosuke Suzuki, Kazuya Yamaguchi, Noritaka Mizuno,
ChemCatChem, 2015, 7, 1097–1104. (First published online: 2015/02/12) Inside Cover
DOI: 10.1002/cctc.201402975 - “Composites of [γ-H2PV2W10O40]3– and [α-SiW12O40]4– Supported on Fe2O3 as Heterogeneous Catalysts for Selective Oxidation with Aqueous Hydrogen Peroxide”,
Ye Wang, Keigo Kamata, Ryo Ishimoto, Yoshiyuki Ogasawara, Kosuke Suzuki, Kazuya Yamaguchi, Noritaka Mizuno,
Catalysis Science & Technology, 2015, 5, 2602–2611. (First published online: 2015/01/14) Inside Front Cover
DOI: 10.1039/c4cy01693a - “A Basic -7-Charged Germanodecatungstate Efficient for Chemoselective Acylation of Primary Alcohols”,
Kosei Sugahara, Naoto Satake, Keigo Kamata, Takahito Nakajima, Noritaka Mizuno,
Angewandte Chemie International Edition, 2014, 53, 13248‒13252. (First published online: 2014/09/26)
DOI: 10.1002/anie.201405212
Highlighted in Synfacts 2015, 11, 0332 (DOI: 10.1055/s-0034-1380251)
- “Efficient and Selective N-Alkylation of Indoles with α,β-Unsaturated Compounds Catalyzed by a Monomeric Phosphate”,
Hanako Sunaba, Keigo Kamata, Noritakia Mizuno,
ChemCatChem, 2014, 6, 2333–2338. (First published online: 2014/07/08)
DOI: 10.1002/cctc.201402309 - “Highly Selective Epoxidation of Cycloaliphatic Alkenes with Aqueous Hydrogen Peroxide Catalyzed by [PO4{WO(O2)2}4]3‒/imidazole”,
Keigo Kamata, Kosei Sugahara, Ryo Ishimoto, Susumu Nojima, Motoya Okazaki, Takashi Matsumoto,Noritaka Mizuno,
ChemCatChem, 2014, 6, 2327–2332. (First published online: 2014/07/07)
DOI: 10.1002/cctc.201402268 - “Synthesis of α-Dawson-Type Silicotungstate [Si2W18O62]8- and Protonation and Deprotonation Inside the Aperture via Intramolecular Hydrogen Bonds”,
Takuo Minato, Kosuke Suzuki, Keigo Kamata, Noritaka Mizuno,
Chemistry -A European Journal, 2014, 20, 5946–5952. (First published online: 2014/04/02)
DOI: 10.1002/chem.201400390 - “Scope of Chemical Fixation of Carbon Dioxide Catalyzed by a Bifunctional Monomeric Tungstate”,
Keigo Kamata, Toshihiro Kimura, Hanako Sunaba, Noritaka Mizuno,Takuo Minato, Kosuke Suzuki, Keigo Kamata, Noritaka Mizuno,
Catalysis Today, 2014, 226, 160–166. (First published online: 2013/10/28)
DOI: 10.1016/j.cattod.2013.09.054 - “Hydrosilylation of Various Multiple Bonds by a Simple Combined Catalyst of a Tungstate Monomer and Rhodium Acetate”,
Shintaro Itagaki, Hanako Sunaba, Keigo Kamata, Kazuya Yamaguchi, Noritaka Mizuno,
Chemistry Letters, 2013, 42, 980–982. (First published online: 2013/06/01)
DOI: 10.1246/cl.130338 - “A Monovacant Lacunary Silicotungstate as an Efficient Heterogheneous Catalyst for Dehydration of Priamry Amides to Nitriles”,
Shintaro Itagaki, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
ChemCatChem, 2013, 5, 1725–1728. (First published online: 2013/04/15)
DOI: 10.1002/cctc.201300063 - “A Novel All Inorganic Mononuclear Chloro Oxo Diperoxotungstate”,
Ryo Ishimoto, Keigo Kamata, and Noritaka Mizuno,
Chemistry Letters, 2013, 42, 476–478. (First published online: 2013/03/19)
DOI: 10.1246/cl.130029 - “Synthesis and Structural Characterization of Inorganic-Organic-Inorganic Hybrids of Dipalladium-Substituted γ-Keggin Silicodecatungstates”,
Tomohisa Hirano, Kazuhiro Uehara, Sayaka Uchida, Mitsuhiro Hibino, Keigo Kamata, and Noritaka Mizuno,
Inorganic Chemistry, 2013, 52, 2662–2670. (First published online: 2013/02/11)
DOI: 10.1021/ic302703k - “Investigation of Reaction Mechanism for Epoxidation of Alkenes with Hydrogen Peroxide Catalyzed by a Protonated Tetranuclear Peroxotungstate with NMR Spectroscopy, Kinetics, and DFT Calculations”,
Ryo Ishimoto, Keigo Kamata, and Noritaka Mizuno,
European Journal of Inorganic Chemistry, 2013, 1943–1950. (First published online: 2012/11/04)
DOI: 10.1002/ejic.201201058 - “Efficient Sulfoxidation with Hydrogen Peroxide Catalyzed by a Divanadium-Substituted Phosphotungstate”,
Taiyo Yamaura, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Catalysis Today, 2013, 203, 76–80. (Proceedings of ISO2011 Symposium at the Europacat X) (First published online: 2012/03/19)
DOI: 10.1016/j.cattod.2012.01.026 - “Efficient [WO4]2–-Catalyzed Chemical Fixation of Carbon Dioxide with 2-Aminobenzonitriles to Quinazoline-2,4(1H,3H)-diones”,
Toshihiro Kimura, Hanako Sunaba, Keigo Kamata, and Noritaka Mizuno,
Inorganic Chemistry, 2012, 51, 13001–13008. (First published online: 2012/11/13)
DOI: 10.1021/ic302110a - “Rhodium Acetate/Base-Catalyzed N-Silylation of Indole Derivatives with Hydrosilanes”,
Shintaro Itagaki, Keigo Kamata, Kazuya Yamaguchi and Noritaka Mizuno,
Chemical Communications, 2012, 48, 9269–9271. (First published online: 2012/07/26)
DOI: 10.1039/C2CC34381A - “Structural and Dynamical Aspects of Alkylammonium Salts of a Silicodecatungstate as Heterogeneous Epoxidation Catalysts”,
Sayaka Uchida, Keigo Kamata, Yoshiyuki Ogasawara, Megumi Fujita, and Noritaka Mizuno,
Dalton Transactions, 2012, 41, 9979–9983. (First published online: 2012/04/30)
DOI: 10.1039/C2DT30492A - “A Highly Negatively Charged γ-Keggin Germanodecatungstate Efficient for Knoevenagel Condensation”,
Kosei Sugahara, Toshihiro Kimura, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Chemical Communications, 2012, 48, 8422–8424. (First published online: 2012/07/02)
DOI: 10.1039/C2CC33839D - “Reversible Deprotonation and Protonation Behaviors of a Tetraprotonated γ-Keggin Silicodecatungstate”,
Kosei Sugahara, Tomohisa Hirano, Keigo Kamata, and Noritaka Mizuno,
Inorganic Chemistry, 2012, 51, 7932–7939. (First published online: 2012/07/05)
DOI: 10.1021/ic3010773 - “Chemo- and Regioselective Direct Hydroxylation of Aromatics to Phenols with Hydrogen Peroxide”,
Keigo Kamata, Taiyo Yamaura, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2012, 51, 7275–7279. (First published online: 2012/07/08)
DOI: 10.1002/anie.201201605 - “A Bifunctional Tungstate Catalyst for Chemical Fixation of CO2 at Atmospheric Pressure”,
Toshihiro Kimura, Keigo Kamata, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2012, 51, 6700-6703. (First published online: 2012/06/05)
DOI: 10.1002/anie.201203189 - “A Highly Active Protonated Tetranuclear Peroxotungstate for Oxidation with Hydrogen Peroxide”,
Ryo Ishimoto, Keigo Kamata, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2012, 51, 4662-4665. (First published online: 2012/04/04)
DOI: 10.1002/anie.201201049 - “Palladium(II) Containing γ-Keggin Silicodecatungstate That Efficiently Catalyzes Hydration of Nitriles”,
Tomohisa Hirano, Kazuhiro Uehara, Keigo Kamata, and Noritaka Mizuno,
Journal of the American Chemical Society, 2012, 134, 6425-6433. (First published online: 2012/03/19)
DOI: 10.1021/ja3006012 - “Oxidative Functional Group Transformations with Hydrogen Peroxide Catalyzed by a Divanadium-Substituted Phosphotungstate”,
Noritaka Mizuno, Keigo Kamata, and Kazuya Yamaguchi,
Catalysis Today, 2012, 185, 157-161. (Proceedings of 13th Korea-Japan Symposium on Catalysis) (First published online: 2011/08/09)
DOI: 10.1016/j.cattod.2011.07.007 - “Cyanosilylation of Carbonyl Compounds with Trimethylsilyl Cyanide by Yttrium-Pillared Silicotungstate Dimer”,
Yuji Kikukawa, Kosuke Suzuki, Midori Sugawa, Tomohisa Hirano, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2012, 51, 3686-3690. (First published online: 2012/02/29)
DOI: 10.1002/anie.201200486 - “Efficient Heterogeneous Epoxidation of Alkenes by Supported Tungsten Oxide Catalyst”,
Keigo Kamata, Koji Yonehara, Yasutaka Sumida, Kazuhisa Hirata, Susumu Nojima, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2011, 50, 12062-12066. (First published online: 2011/10/25)
DOI: 10.1002/anie.201106064
Highlighted in Synfacts 2012, 8, 0347 (DOI: 10.1055/s-0031-1290276)
- “Efficient Epoxidation of Electron-deficient Alkenes with Hydrogen Peroxide Catalyzed by [γ-H2PV2W10O40]3-”,
Keigo Kamata, Kosei Sugahara, Kazuhiro Yonehara, Ryo Ishimoto, and Noritaka Mizuno,
Chemistry - A European Journal, 2011, 17, 7459-7559. (First published online: 2011/06/06) Inside Cover Picture
DOI: 10.1002/chem.201101001 - “An Efficient H2O2-based Oxidative Bromination of Alkenes, Alkynes, and Aromatics by a Divanadium-Substituted Phosphotungstate”,
Kazuhiro Yonehara, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Chemical Communication, 2011, 47, 1692-1694. (First published online: 2011/01/05) Inside Front Cover
DOI: 10.1039/C0CC04889E - “Scope and Reaction Mechanism of an Aerobic Oxidative Alkyne Homocoupling Catalyzed by a Di-Copper-Substituted Silicotungstate”,
Noritaka Mizuno, Keigo Kamata, Yoshinao Nakagawa, Takamichi Oishi, and Kazuya Yamaguchi,
Catalysis Today, 2010, 157, 359-363. (First published online: 2010/04/24)
DOI: 10.1016/j.cattod.2010.02.073 - “Flexible Non-porous Heterogeneous Catalyst for Size-selective Oxidation through Bottom-up Approach”,
Noritaka Mizuno, Sayaka Uchida, Keigo Kamata, Ryo Ishimoto, Susumu Nojima, Koji Yonehara, and Yasutaka Sumida,
Angewandte Chemie International Edition, 2010, 49, 9972-9976. (First published online: 2010/11/17)
DOI: 10.1002/anie.201005275 - “Sulfoxidation with Hydrogen Peroxide Catalyzed by [SeO4{WO(O2)2}2]2− and the Mechanism”,
Keigo Kamata,Tomohisa Hirano, Ryo Ishimoto, and Noritaka Mizuno,
Dalton Transactions, 2010, 39, 5509-5518. (First published online: 2010/05/07)
DOI: 10.1039/C002318C - “Efficient Stereo- and Regioselective Hydroxylation of Alkanes Catalysed by a Bulky Polyoxometalate”,
Keigo Kamata, Kazuhiro Yonehara, Yoshinao Nakagawa, Kazuhiro Uehara, and Noritaka Mizuno,
Nature Chemistry, 2010, 2, 478-483. (First published online: 2010/05/02)
DOI: 10.1038/nchem.648 - “Epoxidation of Alkenes with Hydrogen Peroxide Catalyzed by Selenium-Containing Dinuclear Peroxotungstate and Kinetic, Spectroscopic, and Theoretical Investigation of Mechanism”,
Keigo Kamata, Ryo Ishimoto, Tomohisa Hirano, Shinjiro Kuzuya, Kazuhiro Uehara, and Noritaka Mizuno,
Inorganic Chemistry, 2010, 49, 2471-2478. (First published online: 2010/02/02)
DOI: 10.1021/ic902381b - “Highly Selective Oxidation of Organosilanes to Silanols with Hydrogen Peroxide Catalyzed by a Lacunary Polyoxotungstate”,
Ryo Ishimoto, Keigo Kamata, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2009, 48, 8900-8904. [Selected as a “Hot Paper”] (First published online: 2009/10/21)
DOI: 10.1002/anie.200904694 - “Highly Efficient Oxidation of Sulfide with Hydrogen Peroxide Catalyzed by [SeO4{WO(O2)2}2]2−”,
Keigo Kamata, Tomohisa Hirano, and Noritaka Mizuno,
Chemical Communications, 2009, 3958-3960. (First published online: 2009/06/02)
DOI: 10.1039/B907952A - “Hydrogen-Bond-Assisted Epoxidation of Homoallylic and Allylic Alcohols with Hydrogen Peroxide Catalyzed by Selenium-Containing Dinuclear Peroxotungstate”,
Keigo Kamata, Tomohisa Hirano, Shinjiro Kuzuya, and Noritaka Mizuno,
Journal of the American Chemical Society, 2009, 131, 6997-7004. (First published online: 2009/05/01)
DOI: 10.1021/ja901289r - “A Supported Copper Hydroxide as an Efficient, Ligand-free, and Heterogeneous Precatalyst for 1,3-Dipolar Cycloadditions of Organic Azides to Terminal Alkynes”,
Tatsuyori Katayama, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
ChemSusChem, 2009, 2, 59-62. (First published online: 2009/01/08)
DOI: 10.1002/cssc.200800202 - “An Efficient One-pot Three-component Reaction to Produce 1,4-Disubstituted-1,2,3-triazoles Catalyzed by a Dicopper-substituted Silicotungstate”,
Kazuya Yamaguchi, Miyuki Kotani, Keigo Kamata, and Noritaka Mizuno,
Chemistry Letters, 2008, 37, 1258-1259. (First published online: 2008/11/15)
DOI: 10.1246/cl.2008.1258 - “1,3-Dipolar Cycloaddition of Organic Azides to Alkynes by a Dicopper-Substituted Silicotungstate”,
Keigo Kamata, Yoshinao Nakagawa, Kazuya Yamaguchi, and Noritaka Mizuno,
Journal of the American Chemical Society, 2008, 130, 15304-15310. (First published online: 2008/10/24)
DOI: 10.1021/ja806249n - “Synthesis and Structural Characterization of a Monomeric Di-Copper-Substituted Silicotungstate [γ-H2SiW10O36Cu2(μ-1,1-N3)2]4− and the Catalysis of Oxidative Homocoupling of Alkynes”,
Kazuya Yamaguchi, Keigo Kamata, Syuhei Yamaguchi, Miyuki Kotani, and Noritaka Mizuno,
Journal of Catalysis, 2008, 258, 121-130. (First published online: 2008/07/01)
DOI: 10.1016/j.jcat.2008.06.004 - “A γ-Keggin-type Dimeric Silicotungstate Sandwiching an Adamantanoid Tetra-Nuclear Ruthenium-Oxygen Cluster Core”,
Syuhei Yamaguchi, Kazuhiro Uehara, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Chemistry Letters, 2008, 258, 121-130. (First published online: 2008/02/16)
DOI: 10.1246/cl.2008.328 - “Efficient Oxidative Alkyne-Alkyne Homocoupling by a Monomeric Dicopper-Substituted Silicotungstate”,
Keigo Kamata, Syuhei Yamaguchi, Miyuki Kotani, Kazuya Yamaguchi, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2008, 47, 2407-2410. (First published online: 2008/02/19)
DOI: 10.1002/anie.200705126 - “μ-η1:η1-Peroxo-Bridged Dinuclear Peroxotungstate Catalytically Active for Epoxidation of Olefins”,
Keigo Kamata, Shinjiro Kuzuya, Kazuhiro Uehara, Syuhei Yamaguchi, and Noritaka Mizuno,
Inorganic Chemistry, 2007, 46, 2407-2410. (First published online: 2007/03/22)
DOI: 10.1021/ic0701211 - “Olefin Epoxidation Catalyzed by Lacunary Polyoxometalate [γ-SiW10O34(H2O)2]4–”,
Keigo Kamata, Miyuki Kotani, Kazuya Yamaguchi, Shiro Hikichi, and Noritaka Mizuno,
Chemistry - A European Journal, 2007, 13, 639-648. (Corrigendum: 2007,13, 4133.) (First published online: 2006/09/19)
DOI: 10.1002/chem.200600384 - “Synthesis, Structural Characterization, and Catalytic Performance of Dititanium-Substituted γ-Keggin Silicotungstate”,
Yuya Goto, Keigo Kamata, Kazuya Yamaguchi, Kazuhiro Uehara, Shiro Hikichi, and Noritaka Mizuno,
Inorganic Chemistry, 2006, 45, 2347-2356. (First published online: 2006/01/27)
DOI: 10.1021/ic052179q - “Polyoxovanadometalate-Catalyzed Selective Epoxidation of Alkenes with Hydrogen Peroxide”,
Yoshinao Nakagawa, Keigo Kamata, Miyuki Kotani, Kazuya Yamaguchi, and Noritaka Mizuno,
Angewandte Chemie International Edition, 2005, 44, 5136-5140. (First published online: 2005/07/11)
DOI: 10.1002/anie.200500491 - “Heterogeneously Catalyzed Aerobic Oxidative Biaryl Coupling of 2-Naphthols and Substituted Phenols in Water”,
Mitsunobu Matsushita, Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Journal of the American Chemical Society, 2005, 127, 6632-6640. (First published online: 2005/04/12)
DOI: 10.1021/ja050436k - “Highly Selective, Recyclable Epoxidation of Allylic Alcohols with Hydrogen Peroxide in Water Catalyzed by Dinuclear Peroxotungstate”,
Keigo Kamata, Kazuya Yamaguchi, and Noritaka Mizuno,
Chemistry - A European Journal, 2004, 10, 4728-4734. (First published online: 2004/9/22)
DOI: 10.1002/chem.200400352 - “Efficient, Regioselective Epoxidation of Dienes with Hydrogen Peroxide Catalyzed by [γ-SiW10O34(H2O)2]4−“,
Keigo Kamata, Yoshinao Nakagawa, Kazuya Yamaguchi, and Noritaka Mizuno,
Journal of Catalysis, 2004, 224, 224-228. (First published online: 2004/08/06)
DOI: 10.1002/chem.200400352 - “Efficient Heterogeneous Oxidation of Alkylarenes with Molecular Oxygen”,
Keigo Kamata, Jun Kasai, Kazuya Yamaguchi, and Noritaka Mizuno,
Organic Letters, 2004, 6, 3577-3580. (First published online: 2004/09/03)
DOI: 10.1021/ol0485363
Highlighted in Green Chem. 2003, 5, G43 "Highlights" (DOI: 10.1039/B305230N)>
- “[{W(=O)(O2)2(H2O)}2(μ-O)]2−-Catalyzed Epoxidation of Allylic Alcohols in Water with High Selectivity and Utilization of Hydrogen Peroxide”,
Keigo Kamata, Kazuya Yamaguchi, Shiro Hikichi, and Noritaka Mizuno,
Advanced Synthesis & Catalysis, 2003, 345, 1193-1196. (First published online: 2013/11/19)
DOI: 10.1002/adsc.200303123 - “Efficient Epoxidation of Olefins with ≥99% Selectivity and Use of Hydrogen Peroxide”,
Keigo Kamata, Koji Yonehara, Yasutaka Sumida, Kazuya Yamaguchi, Shiro Hikichi, and Noritaka Mizuno,
Science, 2003, 300, 964-966. (First published online: 2003/05/09)
DOI: 10.1126/science.1083176
Nikkei Sangyo Shimbun 2003/05/09
Chemical & Engineering News (2003, 81(19), 11), "GREEN CHEMISTRY MAKING EPOXIDES–Tungstate-H2O2 system is alternative to chlorine and organic peroxides"
Chemical & Engineering News (2003, 81(51), 39), "CHEMISTRY HIGHLIGHTS 2003"
Review & Commentary
- “金属酸化物触媒による高選択的クリーン酸素酸化反応”,
鎌田慶吾
触媒, 2020, 62, 81–87. - “貴金属触媒を使わずバイオマスから合成できるプラスチック原料”,
鎌田慶吾、原亨和
コンバーテック, 2019, 5, 24–29. - “【コラム】バイオマス資源からプラスチック原料をつくる触媒の開発”,
鎌田慶吾、原亨和
化学技術.com, 2019. - 「新しい金属酸化物の触媒作用」,
鎌田慶吾,
触媒技術の動向と展望 創立60周年記念号,触媒学会編,, 2018, 53-63. - “Perovskite Oxide Catalysts for Liquid-Phase Organic Reactions”,
Keigo Kamata
Bulletin of the Chemical Society of Japan, 2019, 92, 133-151. (First published online: 2018/12/29)
(Special Issue on "Materials Innovation") OPEN ACCESS Inside Cover
DOI: 10.1246/bcsj.20180260 - “Base Catalysis by Mono- and Polyoxometalates”,
Keigo Kamata, Kosei Sugahara
Catalysts, 2017, 7, 345. (First published online: 2017/11/16) OPEN ACCESS
DOI: 10.3390/catal7110345 - “二元機能リン酸セリウム触媒によるカルボニル化合物のアセタール化反応”,
鎌田慶吾、原亨和
化学工業, 2017, 68, 24–29. - “Design of Highly Functionalized Polyoxometalate-based Catalysts“,
Keigo Kamata,
Bulletin of the Chemical Society of Japan, 2015, 8, 1017-1028. (Award Article)
(First published online: 2015/05/25) OPEN ACCESS Back Cover
DOI: 10.1246/bcsj.20150154 - “Recent Progress in the Development of Solid Catalysts for Biomass Conversion into High Value-added Chemicals“,
Michikazu Hara, Kiyotaka Nakajima, Keigo Kamata,
Science and Technology of Advanced Materials, 2015, 16, 034903. (First published online: 2015/05/20) OPEN ACCESS
DOI: 10.1088/1468-6996/16/3/034903 - 「ポリオキソメタレートの階層的配列制御による分子の吸着・反応場の創製」,
内田さやか,鈴木康介,鎌田慶吾,水野哲孝,
表面, 2013, 51, 57-65. - “Catalytic Oxidation of Hydrocarbons with Hydrogen Peroxide by Vanadium-Based Polyoxometalates”,
Noritaka Mizuno, and Keigo Kamata
Coordination Chemistry Reviews, 2011, 255, 2358-2370. (First published online: 2011/01/31)
DOI: 10.1016/j.ccr.2011.01.041 - “Molecular Design of Polyoxometalate-Based Compounds for Environmentally-Friendly Functional Group Transformations −From Molecular Catalysts to Heterogeneous Catalysts−”,
Noritaka Mizuno, Kazuya Yamaguchi, and Keigo Kamata,
Catalysis Survey from Asia, 2011, 15, 68-79. (special issue TOCAT6) (First published online: 2011/06/01)
DOI: 10.1007/s10563-011-9111-2 - “Green Oxidation Reactions by Polyoxometalate-Based Catalysts: From Molecular to Solid Catalysts”,
Noritaka Mizuno, Keigo Kamata, and Kazuya Yamaguchi,
Topics in Catalysis, 2010, 53, 876-893. (First published online: 2010-08-01)
DOI: 10.1007/s11244-010-9520-x - “Molecular Design of Selective Oxidation Catalyst with Polyoxometalate”,
Noritaka Mizuno, Shiro Hikichi, Kazuya Yamaguchi, Sayaka Uchida, Yoshinao Nakagawa, Kazuhiro Uehara, and Keigo Kamata,
Catalysis Today, 2006, 117, 32-36. (First published online: 2006/06/12)
DOI: 10.1016/j.cattod.2006.05.002 - 「ポリオキソメタレートを用いた分子触媒設計とその酸化触媒作用」,
水野哲孝,鎌田慶吾,山口和也,
触媒技術の動向と展望,触媒学会編,, 2005, 21-34. (First published online: 2006/06/12) - “Epoxidation of Olefins Catalyzed by Polyoxometalates”,
Noritaka Mizuno, Kazuya Yamaguchi, and Keigo Kamata,
Coordination Chemistry Reviews, 2005, 249, 1944-1956. (First published online: 2005/03/03)
DOI: 10.1016/j.ccr.2004.11.019
Book
- “Crystalline Metal Oxide Catalysts for Organic Synthesis”,
Keigo Kamata and TakeshiAihara,
Crystalline Metal Oxide Catalysts (Ed.: W. Ueda), Springer, 2022, pp. 219-271. - “Liquid-Phase Selective Oxidation by Multimetallic Active Sites of Polyoxometalate-Based Molecular Catalysts”,
Noritaka Mizuno, Keigo Kamata, and Kazuya Yamaguchi,
Coordination Chemistry Reviews (Eds.: T. Ikariya and M. Shibasaki), Springer, 2011, 37, 127-160. - “Liquid-Phase Oxidations with Hydrogen Peroxide and Molecular Oxygen Catalyzed by Polyoxometalate-Based Compounds”,
Noritaka Mizuno, Keigo Kamata, Sayaka Uchida, and Kazuya Yamaguchi,
Modern Heterogeneous Oxidation Catalysis (Ed.: N. Mizuno), Wiley-VCH, 2009, pp. 185-216. - “Activation of Hydrogen Peroxide by Polyoxometalates”,
Noritaka Mizuno, Kazuya Yamaguchi, Keigo Kamata, and Yoshinao Nakagawa,
Mechanisms in Homogeneous and Heterogeneous Epoxidation Catalysis (Ed.: S. T. Oyama), Elsevier, 2008, pp. 155-176. - 「III. 触媒編 12.2.2 固体酸(C)ポリ酸」,
水野哲孝, 鎌田慶吾,
触媒便覧, 講談社サイエンティフィック,2008, pp. 374-382. - 「5.1 ポリオキソメタレート触媒」,
水野哲孝, 鎌田慶吾,
環境調和型新材料シリーズ 触媒材料,日刊工業新聞社, 2007, pp. 207-214. - “Liquid Phase Oxidations Catalyzed by Polyoxometalates”,
Noritaka Mizuno, Keigo Kamata, and Kazuya Yamaguchi,
Surface and Nanomolecular Catalysis (Ed.: R. Richards),Taylor and Francis Group, 2006, pp. 463-492. - “Selective Oxidation of Hydrocarbons with Molecular Oxygen Catalyzed by Transition-metal-substituted Polyoxometalates”,
Noritaka Mizuno, Masaki Hashimoto, Yasutaka Sumida, Yoshinao Nakagawa, and Keigo Kamata,
Polyoxometalate Chemistry for Nano-Composite Design (Eds.: T. Yamase, M. T. Pope),Springer US, 2002, pp. 197-203.