Characterization and Design of Zeolite Catalysts: Solid Acidity, Shape Selectivity and Loading Properties, Springer Series in Materials Science, Vol. 141,
Springer, Berlin, Heidelberg, Dordrecht and New York (2010).
ISBN: 978-3-642-12619-2
[No.] Author(s) (* shows the corresponding author),
Title,
Journal, Volume, Page, (Year).
Book
[4] Hyun-Seog Roh, Naonobu Katada, Jugkyu Choi and Minkee Choi,
Special Issue for the 19th Korea-Japan Symposium on Catalysis, Catalysis Today Vol. 429,
Elsevier, Amsterdam (2024/3/1).
[3] Takashi Tatsumi, Shang-Bin Liu, Hiromi Matsuhashi and Naonobu Katada*,
Acid-Base Catalysis Advanced Sciences and Spreading Applications to Solutions of Environmental, Resources and Energy Issues: ABC-7, 7th International Symposium on Acid-Base Catalysis, Tokyo, May 12-15, 2013,
Elsevier, Amsterdam (2014).
[2] Miki Niwa, Naonobu Katada and Kazu Okumura,
Characterization and Design of Zeolite Catalysts: Solid Acidity, Shape Selectivity and Loading Properties, Springer Series in Materials Science, Vol. 141,
Springer, Berlin, Heidelberg, Dordrecht and New York (2010).
ISBN: 978-3-642-12619-2
[1] Naonobu Katada*, Seong Ihl Woo, Yasuaki Okamoto and Miki Niwa (eds.),
Advances in Catalysis and Catalytic Materials for Energy and Environmental Protection: Proceedings of the 10th Japan-Korea Symposium on Catalysis Held at Shimane Prefectural Hall, Matsue, Japan, May 10 - 12, 2005, Catalysis Today Vol. 111, Issue 3 - 4
Elsevier, Amsterdam (2006).
[11] Naonobu Katada*,
Acid-Base Property Theory and Measurement,
Fundamentals and Applications of Zeolites, edited by Takashi Tatsumi, Tatsuya Okubo, Yoshihiro Kubota and Toru Wakihara, Kodansha, Tokyo, 119 - 135 (2024/5/22) ISBN 978-4-06-535773-6.
[9] Satoshi Suganuma* and Naonobu Katada,
Zeolite as Catalyst for Organic Synthesis,
Porous Materials Handbook, supervised by Yasushi Takeuchi, NTS, Tokyo, 475 - 480 (2023/6/16).
[8] Etsushi Tsuji* and Naonobu Katada,
Frontiers in Arene Chemistry: Direct Methylation of Benzene with Methane on Metal‐Loaded Zeolites,
Industrial Arene Chemistry: Markets, Technologies, Sustainable Processes and Case Studies of Aromatic Commodities, edited by Jacques Mortier, Wiley-VCH, Weinheim, 747 - 767 (2023/4/26).
[7] Naonobu Katada*,
Aromatics Methylation with Methane,
in Methane and Carbon Dioxide -Current Status and Prospects of Their Catalytic Conversion Technology-, edited by Wataru Ueda, CMC Research, Tokyo, 244 - 254 (2023/3/10).
[6] Naonobu Katada* and Satoshi Suganuma,
Measurement of Acidic Property,
in Leading Edge Technology of High Functional Zeolite,
edited by Toshihide Baba, CMC, Tokyo, 38 - 48 (2015).
[5] Naonobu Katada*,
Catalysis in Acid-base Reactions,
in Chemical Masters' Seminar: Catalytic Chemistry, edited by Kohichi Eguchi, Maruzen, Tokyo, 140 - 152 (2011).
[4] Naonobu Katada and Tetsuya Shishido,
Thermal Specroscopy,
in Reality in Solid Surface Characterization, edited by Tsunehiro Tanaka and Hiromi Yamashita, Kodansha, Tokyo, 138 - 145 (2005).
[3] Naonobu Katada* and Miki Niwa,
Chemical Vapor Deposition of Silica Overlayer using an Organic Molecule as Template on Metal Oxide Surface: Application to Molecular Sieving Sensor and Adsorbent,
in Molecular Imprinting of Polymers, edited by Sergey Piletsky, Anthony Turner and Ian Nicholls, Landes Bioscience / Eurekah. Com., Georgetown, 41 - 49 (2005).
[2] Naonobu Katada* and Miki Niwa,
The Re-birth of Molecular Imprinting on Silica,
in Molecular Imprinting of Polymers, edited by Sergey Piletsky, Anthony Turner and Ian Nicholls, Landes Bioscience / Eurekah. Com., Georgetown, 26 - 40 (2005).
[1] Naonobu Katada* and Miki Niwa,
Silica-Tin Oxide Sensor with Molecular Recognition Ability,
in Sensors Update, Vol. 9, edited by H. Baltes, J. Hesse and J. G. Korvink, Wiley-VCH, Weinheim, 225 - 254 (2001).
[39] Yoshiyuki Toyooka and Naonobu Katada*,
Petroleomics in Japan: People, History and Development,
J. Jpn. Petrol. Inst., in press (2024/9/9).
[38] Hyun-Seog Roh*, Jugkyu Choi*, Minkee Choi* and Naonobu Katada*,
Preface: The 19th Korea-Japan Symposium on Catalysis (19th KJSC),
Catal. Today, 429, 114469 (2024/3/1).
[37] Naonobu Katada* and Hayato Tamura,
A Factor Controlling the Ion Exchange Ability of Zeolite Discovered by Junior High School Students: Achievements of the Tottori University Junior Doctor Training School "Aim! Environmental Doctor Who Saves the Earth",
Zeolite, 41, (1) 29 - 35 (2024/1/31).
[36] Naonobu Katada*,
Controbution of Zeolite Catalysts to Carbon Neutralization,
J. Surf. Finish. Soc. Jpn., 74, (12) 658 - 665 (2023/12/1).
[35] Satoshi Suganuma* and Naonobu Katada,
Selective Conversion of Polycyclic Aromatic Hydrocarbons in Practical Heavy Oil,
J. Jpn. Petrol. Inst., 66, (4) 95 - 100 (2023/7/1).
[34] Hitoshi Matsubara*, Etsushi Tsuji and Naonobu Katada,
Property of Active Cobalt Species on MFI Zeolite for Catalytic Methylation of Benzene with Methane,
Shokubai (Catalysts and Catalysis), 62, (6) 351 - 356 (2020/12/10).
[33] Satioshi Suganuma* and Naonobu Katada,
Innovation of Catalytic Technology for Upgrading of Crude Oil in Petroleum Refinery,
Fuel Process. Technol., 208, 106518 (2020/6/25).
[32] Naonobu Katada*,
Methylation of Benzene with Methane Catalyzed by Transition Metal Species on Zeolite,
Enermix, 99, (2) 155 - 160 (2020).
[31] Koshiro Nakamura, Etsushi Tsuji and Naonobu Katada*,
Benzene Methylation with Methane over MFI Zeolite-supported Metal Catalysts
,
Zeoraito (Zeolite), 37, (1), 17 - 27 (2020).
[30] Naonobu Katada*,
Towards Control of Acidic Property of Zeolite,
Kagaku Kogyo (Chemical Industry), 70, (6) 22 - 26 (2019).
[29] Akira Kitamura* and Naonobu Katada,
Accident Indication Analysis by Probabilistic Inference and Risk Assessment System for Petroleum Refinery Process,
Systems, Control and Information, 62, (8) 305 - 310 (2018).
[28] Naonobu Katada*, Koshiro Nakamura, Satoshi Suganuma and Etsushi Tsuji,
Study on Activation Enthalpy and Entropy in Solid Acid-catalyzed Reactions,
Catalysts and Catalysis, 60, (1) 21 - 26 (2017).
[27] Naonobu Katada*,
Analysis and Interpretation of Acidic Nature of Aluminosilicates,
Mol. Catal., 458, (B) 116 - 126 (2018).
[26] Naonobu Katada*,
Extended Database on Reference Catalyst User’s Guide 6th
Edition,
Shokubai (Cataysts & Catalysis), 57, (3) 174 - 180 (2011).
[25] Naonobu Katada*,
Separation of Aromatics and Paraffins: View from Catalysis,
Petrotech, 37, (4) 266 - 270 (2014).
[24] Miki Niwa* and Naonobu Katada,
New Method for the Temperature-Programmed Desorption (TPD) of Ammonia Experiment for Characterization of Zeolite Acidity: A Review,
Chem. Rec., 13, (5) 432 - 455 (2013).
[23] Naonobu Katada*,
Data Collection of Reference Cataysts,
Shokubai (Cataysts & Catalysis), 53, (6) 433 - 437 (2011).
[22] Naonobu Katada*,
Relationship between Crystal Structure and Acid Strength of Zeolite,
Shokubai (Cataysts & Catalysis), 53, (6) 359 - 364 (2011).
[21] Naonobu Katada* and Miki Niwa,
Molecular-sieving Silica Overlayer: Preparation Method and Functions,
Shokubai (Cataysts & Catalysis), 53, (1) 49 - 54 (2011).
[20] Miki Niwa* and Naonobu Katada,
Combined Study of Ammonia IRMS-TPD Experiment and DFT Calculation to Characterize Zeolite Acidity,
J. Jpn. Petrl. Inst., 52, 172 - 119 (2010).
[19] Naonobu Katada*,
Series, We want to know it: Introduction of Standardization Project of Catalyst Preparation (Ion Exchange of Zeolite),
Zeoraito (Zeolite), 26, (1) 28 - 31 (2009).
[18] Miki Niwa*, Naonobu Katada and Katsuki Suzuki,
Trinity Study on the Zeolite Acidity Using Thermal Measurements, Spectroscopy, and Density Functional Theory Calculation,
Hyomkenkagaku (J. Surf. Sci. Soc. Jpn.), 30, (2) 104 - 110 (2009).
[17] Naonobu Katada*,
Attempt for Standardization of Catalyst Based on Reference Catalysts (3): Standardization of Ion Exchange Method of Zeolite,
Petrotech, 32, (3) 212 - 215 (2009).
[16] Naonobu Katada* and Miki Niwa,
Measurements of Solid Acidity by Ammonia IRMS-TPD Method,
Petrotech, 31, (5) 365 - 368 (2008).
[15] Miki Niwa*, Naonobu Katada and Katsuki Suzuki,
Combined Study on the Brønsted Acidity in Zeolites using IRMS-TPD (Infrared Spectroscopy / Mass Spectroscopy Temperature-Programmed Desorption) of Ammonia and DFT (Density Functional Theory) Calculation,
Zeoraito (Zeolite), 25, (1) 22 - 29 (2008).
[14] Naonobu Katada* and Miki Niwa,
Recent advances in measurements of solid acidity,
Shokubai (Catalysts & Catalysis), 48, 9 - 14 (2006).
[13] Naonobu Katada*, Seong Ihl Woo, Yasuaki Okamoto and Miki Niwa,
Preface: Advances in catalysis and catalytic materials for energy and environmental protection,
Catal. Today, 111, (3 - 4), 145 - 146 (2006/2/15).
[12] Naonobu Katada*,
Developement of New Functions and Application to Clean Rooms of Semiconducting Gas Sensor,
Fuji Electric J., in press.
[11] Miki Niwa* and Naonobu Katada,
Creation of Highly Selective Zeolite and Metal Oxide Catalysts with CVD of Silicon Alkoxide,
Shokubai (Catalysts & Catalysis), 47, (5) 358 - 364 (2005).
[10] Naonobu Katada*, Miki Niwa and Munekazu Nakamura,
Catalytic Oxidation and Removal of Sulfurous Acid into Sulfuric Acid over Activated Carbon,
Sulphuric Acid and Industry, 57, (7) 119 - 125 (2004).
[9] Naonobu Katada* and Miki Niwa,
Analysis of Acidic Properties of Zeolitic and Non-zeolitic Solid Acid Catalysts Using Temperature-Programmed Desorption of Ammonia,
Catal. Surveys Asia, 8, (3) 161 - 170 (2004).
[8] Naonobu Katada* and Miki Niwa,
Measurements of Acidic Properties of Zeolites using Temperature-Programmed Desorption of Ammonia,
Zeolite News Letters, 21, (2) 45 - 52 (2004).
[7] Hideyuki Matsumoto, Yasuaki Okamoto, Atsushi Satsuma, Akifumi Ueno, Naonobu Katada, Hiromi Matsuhashi and Miki Niwa*,
Standardization of Preparation of Catalyst Using Reference Catalyst,
Shokubai (Catalysts & Catalysis), 45, (5) 388 - 394 (2003).
[6] Miki Niwa* and Naonobu Katada,
Solid Acidity of Zeolites and Thin Layers of Metal Oxides Measured by Ammonia Temperature-Programmed Desorption,
Hyomenkagaku (J. Surf. Sci. Soc. Jpn.), 24, (10) 635 - 641 (2003).
[4] Naonobu Katada* and Miki Niwa,
Measurements of Acidic Property of Solid by Temperature-Programmed Desorption ofg Ammonia,
Shokubai (Catalysts & Catalysis), 42, (3) 218 - 222 (2000).
[3] Miki Niwa* and Naonobu Katada,
Measurements of Solid Acidity of Zeolites by Temperature Programmed Desorption of Ammonia,
Hyomen (Surface), 37, (6) 371 - 382, (1999).
[2] Miki Niwa* and Naonobu Katada,
Measurements of Acidic Property of Zeolites by Temperature-Programmed Desorption of Ammonia,
Catal. Surveys Jpn., 1, (2) 215 - 226, (1997).
[1] Naonobu Katada* and Miki Niwa,
Silica Monolayer Solid-Acid Catalyst Prepared by CVD,
Adv. Mater., Chem. Vap. Deposition, 2, (4) 125 - 134, (1996).
Dictionaries
[3] Catalysis Society of Japan ed.,
Shokubai Sogo Jiten, Asakura Publishing (2023) ISBN: 978-4-254-25274-3,
"Fluid Catalytic Cracking".
[2] Catalysis Society of Japan ed.,
Shokubai Binran, Kodansha (2008) ISBN-10: 4061543512, ISBN-13: 978-4061543515,
"TPD, TPR", "Measurements of Solid Acidity and Basicity and Analysis of Solid Acid-Base Catalysis".
[1] Yoshio Ono, Makoto Misono and Yoshihiko Moro-oka, eds.,
Shokubai no Jiten, Asakura Shoten (2000) ISBN 4-254-25242-0,
some terms such as "zeolite".