兵庫県立大学大学院 工学研究科 応用化学専攻

2024年

1. Promise of dual carbon batteries with graphene-like graphite as both electrodes,
Junichi Inamoto, Shoya Enoki, Akane Inoo, Noriyuki Tamura, and Yoshiaki Matsuo,
Carbon, 216, 118512 (2024).
Open Access https://doi.org/10.1016/j.carbon.2023.118512

2. Photon energy dependence of graphene oxide reduction by soft X-ray irradiation and atomic hydrogen annealing,
Akira Heya, Akinori Fujibuchi, Masahiro Hirata, Yoshiaki Matsuo, Junichi Inamoto, Kazuhiro Kanda and Koji Sumitomo,
Japanese Journal of Applied Physics, 63, 02SP20 (2024).
Open Access https://10.35848/1347-4065/ad0cdf

3. Electrochemical intercalation of anions into graphite: Fundamental aspects, material synthesis, and application to the cathode of dual-ion batteries,
Yoshiaki Matsuo, Akane Inoo, and Junichi Inamoto,
ChemistryOpen, e202300244 (2024).
Invited Review Article
Open Access https://doi.org/10.1002/open.202300244

2023年

1. Effect of the Oxygen Evolution from Lithium-Rich Cathode Materials on the Formation Behavior of Passivation Surface Film,
Junichi Inamoto, Kei Joshua Baskoro, Yoshiaki Matsuo,
Journal of the Electrochemical Society, 170, 010513 (2023).
Open Access https://doi.org/10.1149/1945-7111/acadae

2. Effects of underlayer on reduction of graphene oxide through atomic hydrogen annealing and soft X-ray irradiation,
Akira Heya, Akinori Fujibuchi, Masahiro Hirata, Kazuhiro Kanda, Yoshiaki Matsuo, Junichi Inamoto, and Koji Sumitomo,
Japanese Journal of Applied Physics, 62, SC1028 (2023).
Open Access https://doi.org/10.35848/1347-4065/acac37

3. Factors Affecting the Electrochemical Behaviors of Graphene-Like Graphite as a Positive Electrode of a Dual-Ion Battery,
Yoshiaki Matsuo, Kazuhiro Sekito, Yusuke Ashida, Junichi Inamoto, and Noriyuki Tamura,
ChemSusChem, 16, e202001127 (2023).
Selected as "Very Important Paper"
https://doi.org/10.1002/cssc.202201127

4. Elucidating the Origin of the Low Anion Intercalation Potential of Graphene-like Graphite: A DFT Study,
Junichi Inamoto, Akane Inoo, and Yoshiaki Matsuo,
The Journal of Physical Chemistry C, 127, 9481 (2023).
Selected as Supplementary Cover Art

https://doi.org/10.1021/acs.jpcc.3c01037

5. Kinetic Analysis of Sodium-Ion Intercalation Reaction into Graphene-Like Graphite by Electrochemical Impedance Spectroscopy,
Junichi Inamoto, Koki Aga, Akane Inoo, and Yoshiaki Matsuo,
Journal of the Electrochemical Society, 170, 060550 (2023).
Open Access https://doi.org/10.1149/1945-7111/ace084

6. Effect of Surface Structure of Graphite on the Passivation Ability of Solid Electrolyte Interphases,
Yoshiho MASUDA, Akane INOO, Yasuyuki KONDO, Yuko YOKOYAMA, Yuto MIYAHARA, Kohei MIYAZAKI, Takeshi ABE,
Electrochemistry, 9, 097002 (2023).
Open Access https://doi.org/10.5796/electrochemistry.23-00071

2022年

1. Effects of Solvation Structures on the Co-intercalation Suppression Ability of the Solid Electrolyte Interphase Formed on Graphite Electrodes,
Akane Inoo, Tomokazu Fukutsuka, Yuto Miyahara, Yasuyuki Kondo, Yuko Yokoyama, Kohei Miyazaki, and Takeshi Abe,
Chemistry Letters, 51, 618-621 (2022).
Editor's Choice and Selected as Cover Art

Open Access https://doi.org/10.1246/cl.220101

2. Synthesis of a flexible self-standing graphene-like graphite thin film and its application to an anode material for a thin-film all-solid-state lithium-ion battery,
Junichi Inamoto, Shinpei Komiyama, and Yoshiaki Matsuo,
Carbon Reports, 1, 142-146 (2022).
Open Access https://doi.org/10.7209/carbon.010304

3. Insight into the Origin of the Rapid Charging Ability of Graphene-Like Graphite as a Lithium-Ion Battery Anode Material Using Electrochemical Impedance Spectroscopy,
Junichi Inamoto, Shinpei Komiyama, Satoshi Uchida, Akane Inoo, and Yoshiaki Matsuo,
The Journal of Physical Chemistry C, 126, 16100-16108 (2022).
Selected as Supplementary Cover Art

https://doi.org/10.1021/acs.jpcc.2c04780

4. Electrochemical Introduction/Extraction of Fluoride Ions into/from Graphene-like Graphite for Positive Electrode Materials of Fluoride-Ion Shuttle Batteries,
Akane Inoo, Junichi Inamoto, and Yoshiaki Matsuo,
ACS Applied Materials & Interfaces, 14, 56678-56684 (2022).
Selected as Supplementary Cover Art

https://doi.org/10.1021/acsami.2c13070

2021年

1. Effect of Additives on the Interfacial Degradation Phenomena of LiNi0.5Mn1.5O4 Thin-Film Electrodes,
Junichi Inamoto, Takuro Yasue, Yoshiaki Matsuo,
Journal of the Electrochemical Society, 168, 080539 (2021).
Open Access http://dx.doi.org/10.1149/1945-7111/ac1cf9

2. Graphene-like Graphite as a Novel Cathode Material with a Large Capacity and Moderate Operating Potential for Dual Carbon Batteries,
Junichi Inamoto, Kazuhiro Sekito, Naoya Kobayashi, Yoshiaki Matsuo,
Journal of the Electrochemical Society, 168, 010528 (2021).
Open Access https://doi.org/10.1149/1945-7111/abdb00

3. Electrochemical Surface Analysis of LiMn2O4 Thin-film Electrodes in LiPF6/Propylene Carbonate at Room and Elevated Temperatures,
Junichi INAMOTO, Tomokazu FUKUTSUKA, Kohei MIYAZAKI, Takeshi ABE,
Electrochemistry, 89, 19-24 (2021).
Open Access http://dx.doi.org/10.5796/electrochemistry.20-00112

4. Molecular Structural Influence of Glymes on Co-Intercalation Behavior of Solvated Li+ in Graphite Electrodes,
Akane Inoo, Tomokazu Fukutsuka, Yuto Miyahara, Yasuyuki Kondo, Yuko Yokoyama, Kohei Miyazaki and Takeshi Abe,
Journal of the Electrochemical Society, 168, 060525 (2021).
https://doi.org/10.1149/1945-7111/ac08ab

2020年

1. Microscopic characterization of the C-F bonds in fluorine-graphite intercalation compounds,
Kaname Yoshida, Yoshihiro Sugawara, Motofumi Saitoh, Kazuhiko Matsumoto, Rika Hagiwara, Yoshiaki Matsuo, Akihide Kuwabara, Yoshio Ukyo, Yuichi Ikuhara,
Journal of Power Sources, 445, 227320 (2020).

2. Deoxofluorination of graphite oxide by sulfur tetrafluoride,
Hiroki Yamamoto, Kazuhiko Matsumoto, Yoshiaki Matsuo, Yuta Sato, Rika Hagiwara,
Dalton Transactions, 49, 47 (2020).

3. Charge-discharge behaviors of fluorine-intercalated graphite for the positive electrode of fluoride ion shuttle battery,
Yoshiaki Matsuo, Junichi Inamoto, Atsushi Mineshige, Miwa Murakami, Kazuhiko Matsumoto, Rika Hagiwara,
Electrochemistry Communications, 110, 106626 (2020).

4. Electrochemical Properties of Pillared Carbons for the Electrode of Electric Double Layer Capacitor,
Y. Matsuo, T. Kino, J. Inamoto, O. Kimizuka, M. Nishijima, H. Kinoshita,
Electrochemistry, 88, 53 (2020).

5. Effect of Hydrogen-Gas Treatment on the Local Structure of Graphene-Like Graphite,
Junichi Inamoto, Yoshiaki Matsuo, Katsumi Maeda, Satoshi Uchida, Masashi Ishikawa, Takuya Masuyama; Kaoru Tsukamoto; Yuta Sato,
Carbon, 163, 162 (2020).

6. Accommodation of a large amount of lithium ions in silsesquioxane-pillared carbon; a potential anode of all-solid-state lithium ion battery,
Yoshiaki Matsuo, Yuta Ogawa, Takeshi Kai, Ai Aoto, Junichi Inamoto, Kazuma Gotoh,
Chemistry Letters, 49, 757 (2020).

7. Synthesis of ordered carbonaceous framework with microporosity from porphyrin with ethynyl groups,
Hirotomo Nishihara, Kenta Matsuura, Mao Ohwada, Masanori Yamamoto, Yoshiaki Matsuo, Jun Maruyama, Yuichiro Hayasaka, Shingi Yamaguchi, Kazuhide Kamiya, Hisashi Konaka, Masataka Inoue, and Fumito Tani,
Chemistry Letters, 4, 619 (2020).

8. Discharge Characteristic of Fluorinated Graphene-like Graphite as a Cathode of Lithium Primary Battery,
Yoshiaki MATSUO, Junichi INAMOTO, Hiroki YAMAMOTO, Kazuhiko MATSUMOTO, Rika HAGIWARA,
Electrochemistry, 88, 437-440 (2020).
Open Access http://dx.doi.org/10.5796/electrochemistry.20-64068

9. Graphene-Like Graphite Negative Electrode Rapidly Chargeable at Constant Voltage,
Satoshi Uchida, Junichi Inamoto, Yoshiaki Matsuo, Katsumi Maeda, Takuya Masuyama, Kaoru Tsukamoto, Masashi Ishikawa and Yuta Sato,
Journal of the Electrochemical Society, 167, 110518 (2020).
http://dx.doi.org/10.1149/1945-7111/aba1a7

10. Function of Porous Carbon Electrode during the Fabrication of Multiporous-Layered-Electrode Perovskite Solar Cells,
Ryuki Tsuji, Dmitry Bogachuk, David Martineau, Lukas Wagner, Eiji Kobayashi, Ryoto Funayama, Yoshiaki Matsuo, Simone Mastroianni, Andreas Hinsch and Seigo Ito,
Photonics, 7, 133 (2020).

11. Effect of Electrolyte Additives on Kinetic Parameters of Lithium-ion Transfer Reactions at Electrolyte/Graphite Interface,
Akane INOO, Tomokazu FUKUTSUKA, Yuto MIYAHARA, Yasuyuki KONDO, Yuko YOKOYAMA, Kohei MIYAZAKI, Takeshi ABE,
Electrochemistry, 88, 365-368 (2020).
Open Access https://doi.org/10.5796/electrochemistry.20-64048

2019年

1. Water Electrolysis using Flame-Annealed Pencil-Graphite Rods,
R. Tsuji, H. Masutani, Y. Haruyama, M. Niibe, S. Suzuki, S. Honda, Y. Matsuo, A. Heya, N. Matsuo, and S. Ito,
ACS Sustainable Chemistry & Engineering, 7, 5681 (2019).

2. Effects of Pre-Lithiation on the Electrochemical Properties of Graphene-Like Graphite,
Junichi Inamoto, Yoshiaki Matsuo, Shunya Maruyama, Katsumi Maeda, Noriyuki Tamura, Satoshi Uchida, Masashi Ishikawa,
Electrochemistry, 87, 260-264 (2019).

1. グラフェン系炭素表面での反応特性
稲本純一、松尾吉晃、リチウムイオン二次電池用炭素系負極材の開発動向、㈱シーエムシー出版、218-224（2019）

2. ピラー化炭素の特異な吸着挙動と応用
松尾吉晃、「PCP／MOFおよび各種多孔質材料の作り方，使い方，評価解析」技術情報協会第4章第8節 2019

2018年

1. Electrochemical properties of nitrogen-doped carbons prepared by thermal reduction of furfurylamine-intercalated graphite oxide,
Yoshiaki Matsuo, Shunya Maruyama, Qian Cheng, Yasuharu Okamoto, Noriyuki Tamura,
Tanso, 281, 2-7 (2018).

2. Coatable Photomobile Polymer Films Using Spring-Like Photochromic Compounds,
M. Kondo, K. Makino, K. Miyake, Y. Matsuo, R. Fukae, and N. Kawatsuki,
Macromolecular Chemistry and Physics, 219, 1700602 (2018).

3. ¹³C/¹⁹F High-resolution solid-state NMR studies on fluorine-graphite intercalation compound,
M. Murakami, K. Matsumoto, R. Hagiwara, and Y. Matsuo,
Carbon, 138, 179-187 (2018).

4. Effect of oxygen contents in graphene like graphite anodes on their capacity for lithium ion battery,
Y. Matsuo, J. Taninaka, K. Hashiguchi, T. Sasaki, Q. Cheng, Y. Okamoto, N. Tamura,
Journal of Power Sources, 396, 134-140 (2018).

5. Electrochemical intercalation behaviors of lithium ions into graphene like graphite,
Y. Matsuo, T. Sasaki, S. Maruyama, J. Inamoto,Y. Okamoto, and N. Tamura,
Journal of the Electrochemical Society, 165, A1-A6 (2018).

6. Characterization of the Interface between LiMn2O4 Thin-film Electrode and LiBOB-based Electrolyte Solution by Redox Reaction of Ferrocene,
Junichi INAMOTO, Tomokazu FUKUTSUKA, Kohei MIYAZAKI, Takeshi ABE,
Electrochemistry, 86, 254-259 (2018).
Open Access http://dx.doi.org/10.5796/electrochemistry.18-00030

1.グラフェンライクグラファイトの合成と充放電特性,
松尾吉晃、炭素材料科学の進展、学振第117委員会編, 105-106(2018)

2017年

1. Functional group dependence of spin magnetism in graphene oxide,
K. Tajima, T. Isaka, T. Yamashina, Y. Ohta, Y. Matsuo, K. Takai,
Polyhedron, 136, 155-158 (2017).

2. Synthesis of ordered carbonaceous frameworks from organic crystals,
Hirotomo Nishihara, Tetsuya Hirota, Kenta Matsuura , Mao Ohwada , Norihisa Hoshino, Tomoyuki Akutagawa, Takeshi Higuchi, Hiroshi Jinnai, Yoshitaka Koseki, Hitoshi Kasai, Yoshiaki Matsuo, Jun Maruyama, Yuichiro Hayasaka, Hisashi Konaka, Yasuhiro Yamada, Shingi Yamaguchi, Kazuhide Kamiya, Takuya Kamimura, Hirofumi Nobukuni, Fumito Tani,
Nature Communications, 8, 109 (2017).
doi:10.1038/s41467-017-00152-z,
Press release(PDF)

3. Graphene-Like-Graphite As a Fast Chargeable and High Capacity Anode for Lithium Ion Batteries - A Carbon Approach,
Qian Cheng, Yasuharu Okamoto, Masayoshi Tsuji, Noriyuki Tamura, Shunya Maruyama, Yoshiaki Matsuo,
Scientific Reports, 7, 14782 (2017).
https://www.nature.com/articles/s41598-017-14504-8

4. Selective Detection of Acetone Vapor Using Hydrophobized Pillared Carbon Thin Films,
Matsuo Y and Araki M,
Frontiers in Materials, 4, 17 (2017).
https://doi.org/10.3389/fmats.2017.00017

5. Insight into the state of the ZrO2 coating on a LiCoO2 thin-film electrode using the ferrocene redox reaction,
Jun-ichi Inamoto, Tomokazu Fukutsuka, Kohei Miyazaki, Takeshi Abe,
Journal of Applied Electrochemistry, 47, 1-9 (2017).

6. Investigation on Surface-Film Formation Behavior of LiMn2O4 Thin-Film Electrodes in LiClO4/Propylene Carbonate,
Jun-ichi Inamoto, Tomokazu Fukutsuka , Kohei Miyazaki, Takeshi Abe,
ChemistrySelect 2, 2895-2900 (2017).

7. Investigation of the Surface State of LiCoO2 Thin-Film Electrodes Using a Redox Reaction of Ferrocene,
Jun-ichi Inamoto, Tomokazu Fukutsuka, Kohei Miyazaki, Takeshi Abe,
Journal of the Electrochemical Society, 164, A555-A559 (2017).

1. Preparation and application of fluorine-containing graphite and graphite oxide,
Yoshiaki Matsuo in New Forms of Fluorinated Carbons, T. Nakajima and O. Boltalina,
eds, Elsevier, Chapter 10, 245-260 (2017).

2.「カーボンに水素を貯める」
松尾吉晃, カーボン・ダイヤモンド技術,
第1章1-3，(2017)21-32 丸善プラネット

3. グラフェンライクグラファイトの層数制御，
松尾吉晃
「次世代二次電池用電極材料の開発と高出力化、安全性向上技術」技術情報協会，220-225 (2017)

2016年

1.Vanadium ion redox reactions in three-dimensional network of reduced graphite oxide, J. Maruyama, T. Shinagawa, A. Hayashida, Y. Matsuo, H. Nishihara and T. Kyotani, ChemElectroChem, 3(4)650-657(2016)

2.Electrochemical oxidation of graphite in aqueous hydrofluoric acid solution at high current densities, Y. Matsuo, S. Hirata, M. Dubois, J. Fluorine Chem. 185 (2016) 36-41.

3.Functionalization of graphene oxide with 1-aminopyrene, Masakazu Morimoto and Yoshiaki Matsuo, Tanso, 272 (2016) 57-63.

1.酸化グラフェンのリチウム電池への応用, 松尾吉晃　『酸化グラフェンの機能と応用』第5章 (2016)

1.PCT/JP2016/000152：Hierarchical Oxygen Containing Carbon Anode for Lithium Ion Batteries with High Capacity and Fast Charging Capability Q. Cheng, N. Tamura, Y. Matsuo

2015年

1.Electrochemical intercalation of sodium ions into thermally reduced graphite oxide, Yoshiaki Matsuo, Katsuki Hashiguchi, Koji Ueda, Yasuji Muramatsu, Electrochemistry,　83, 345-347 (2015)

2.Porous properties of pillared carbons prepared from the thermal reduction of graphite oxide repeatedly silylated with methyltrichlorosilanes, Yoshiaki Matsuo, Akihiro Hayashida and Kentaro Konishi,Frontiers in Materials, 2, 1-5（2015）

1.「フッ素化合物の合成法」,松尾吉晃,『フッ素化学入門2015』,日本学術振興会第155委員会編　共立出版,　17-21,44-54, 66-67 (2015)

2014年

1.Silica-pillared graphene sheets with iron-nitrogen units as oxygen reduction catalyst, Jun Maruyama, Shogo Akita, Yoshiaki Matsuo, Yasuji Muramatsu, Carbon, 66 (2014) 327-333

2.Preparation of pillared carbon thin films from the reduction of silylated graphite oxide by UV light irradiation and their size selective electrical response to various molecules, Yoshiaki Matsuo, Kenshiro Iwasa, Taito Mimura, Yuji Tachibana, Carbon, 75 (2014) 271-276.

3.Pyrolytic carbon from graphite oxide as a negative electrode of sodium-ion battery, Yoshiaki Matsuo, Koji Ueda, J. Power Sources, 263, (2014) 158-162.

4.グラフェンナノシートを利用したガスセンサ,松尾吉晃, 化学工業,　65(2), 95-99　(2014)

１.「炭素系」,松尾吉晃,『吸着剤・吸着プロセスの開発動向』,シーエムシー出版、17-30　(2014)
※活性炭をはじめとする多孔質炭素材料の新規合成法、特徴、利用法についてまとめた

２.「グラフェンの透明電極・ガスセンサへの応用」,松尾吉晃, 『グラフェン・コンポジット』, 161-170, S&T出版 (2014)
※ピラー化炭素薄膜の作製とサイズ選択的なガスセンサ特性についてまとめた

2013年

1.Preparation of microporous pillared silica from silylated magadiite and their unique inclusion behaviors of organic molecules, Y. Matsuo, Y. Yamauchi, Mesoporous　Microporous　Mater., 168 (2013) 171-177.

2.酸化グラフェンナノシートを利用したエネルギー貯蔵材料, 松尾吉晃,　化学と工業（特集）66-4 (2013) 301-303.

3.Preparation and visible-light photocatalytic activity of microporous pillared layered titanate, Y. Matsuo, K. Maeda, Chem. Lett., 42 (2013) 504-506.

4.水素吸蔵材料としての可能性を秘めるシルセスキオキサン類で架橋されたグラフェン, 松尾吉晃, Material Stage, (2013) 35-38

5.芳香族分子を導入したグラフェン系炭素薄膜の作製,　松尾吉晃、ケミカルエンジニヤリング、58 (2013) 650-654 .

6.Suppression of thermal quenching of fluorescence from rhodamine dyes attached to silylated magadiite containing perfluoroalky groups, Y. Matsuo, T. Takamatsu, J. Fluorine Chem., 156 (2013) 220-223.

2012年

1.Preparation of microporous pillared carbons from the silylated graphite oxide prepared by a two-step method,　Yoshiaki Matsuo, Takeshi Komiya, and Yosohiro Sugie, J. Phys. Chem. Solid, 73, 1424-1427 (2012)

2.Intercalation of various organic molecules into pillared carbon, Yoshiaki Matsuo, Kentaro Konishi, Carbon, 50, 2280?2286 (2012)

3.「化学的手法によるグラフェン の合成」　松尾吉晃　「グラフェンが開く材料の新領域－物性・作成から実用化まで－」第3章第2項　NTS　2012年

4.Pillared carbons consisting of silsesquioxane bridged graphene layers for hydrogen storage materials, Yoshiaki Matsuo, Sakae Ueda, Kentaro Konishi, Juan Pablo Marco-Lozar, Dolores Lozano-Castello and Diego Cazorla-Amoros , Int. J. Hydrogen Energy, 37, 10702?10708 (2012).

5.2段階法でシリル化した酸化黒鉛からのピラー化炭素の合成における水添加の効果、植田興、松尾吉晃、炭素、253, 116-121 (2012). 炭素材料学会論文賞受賞

6.Preparation of pillared carbon thin films and their size selective electrical response to organic vapor, Y. Matsuo, Y. Tachibana, K. Konishi, Carbon, 50, 5340-5350 (2012).

7.ピラー化炭素の合成とサイズ選択的分子包摂機能, 日本化学会研究会「低次元系光機能材料研究会」ニュースレター、2, 10-12　（2012）

2011年

1.Factors affecting the formation of carbon film on the stainless steels for the bipolar plate of polymer electrolyte fuel cells, Shin-ichi Miyano, Yoshiaki Matsuo, Yosohiro Sugie and Tomokazu Fukutsuka (Kyoto University), submitted to Journal of Fuel Cell Science and Technology, 8, 031008-1-5 (2011)

2.Corrosion Behavior of various Stainless Steels in Soy Sauce Manufacturing Plants, H. Fujii, T. Asano, Y. Matsuo, Y. Sugie, J. Mater. Sci. Eng., 5, 570-576 (2011).

3.Effect of the perfluoroalkyl groups on the preparation of carbon-based transparent and conductive thin films from silylated graphite oxides,Yoshiaki Matsuo, Kenshiro Iwasa, Yosohiro Sugie, Hisanao Usami and　Masayuki Kasaguchi, J. Fluorine Chem. 132, 669?672 (2011)

4.Size-dependent inclusion of organic molecules into elastic pillared carbons, Yoshiaki Matsuo, Kentaro Konishi, Chem. Commun., 47, 4409-4411 (2011).

5.種々のステンレス鋼への炭素薄膜被覆と固体高分子形燃料電池用セパレータ材料への適用, 炭素, 福塚友和、宮野真一、福塚友和、松尾吉晃・A杉江他曾宏、247, 54-58 (2011)

6.Improvement in Stability of LiMn2O4 Thin-Film Electrodes by Oxygen-Plasma Irradiation to Precursor Gel, Yoshiaki Matsuo, Yosohiro SUGIE , Kouta SAKAMOTO , and Tomokazu FUKUTSUKA, J. Solid State Electrochem., 15, 503-510 (2011).

7.Analysis of Film Generated on Various Stainless Steel Surfaces in Soy Sauce by Electrochemical Impedance Spectroscopy and XPS, H. Fujii, Y. Takatani, Y. Matsuo and Y. Sugie, J. Mater. Sci. Eng., B, 1 (2011) 879-890.

8.醤油環境における各種ステンレス鋼の電気化学インピーダンス特性、藤井英則、高谷泰之、松尾吉晃、杉江他曾宏,　材料と環境、60, 290-295 (2011).

9.Electrochemical Behavior of Stainless Steel under High-Temperature and High-Pressure Methanol Solution Containing Oxygen and Chloride Ions, D. Shintani1, T. Ishida, Y. Matsuo and Y. Sugie, J. Mater. Sci. Eng. B, 1 (2011) 861-870

10.Effect of heat-treatment on localized corrosion behavior of duplex stainless steels in 3.5% NaCl solution, Hidenori FUJII, Taichi ASANO, Yoshiaki Matsuo and Yosohiro SUGIE, J. Mater. Sci. Eng. A, 1 (2011) 899-906.

2010年

1.Hybrid intercalation compounds containing perfluoroalkyl groups, Y. Matsuo, in " Functionalized Inorganic Fluorides" A. Tressaud ed, Wiley, Chapter15, 469-488 (2010)

2.「フッ素化学入門2010基礎と応用の最前線」,　松尾吉晃、日本学術振興会フッ素化学第155委員会編、共立出版、25-35 (2010)

3.Preparation of carbon-based transparent and conductive thin film by pyrolysis of silylated graphite oxides, Yoshiaki Matsuo, Kenshiro Iwasa, Yosohiro Sugie, Atsushi Mineshige and Hisanao Usami　(Shinshu Univ.), Carbon, 48, 400-4014 (2010) pdf

4.アルキルアミン－シリル化酸化黒鉛層間化合物の合成と分散挙動、松尾吉晃、岩佐健・m郎、三村泰斗、杉江他曾宏、炭素、No.243, 93-96 （2010）

5.Preparation of Semi-Conducting Graphene-Based Carbon Films from Silylated Graphite Oxide and Covalent Attachment of Dye Molecules, Yoshiaki Matsuo, Taito Mimura, and Yosohiro Sugie, Chem. Lett., 39, 636-637 (2010) pdf

6.Generation of line glow discharge plasma at atmospheric pressure and preparation of amorphous carbon films、Y. Kikuchi, Y. Matsuo, Y. Horiguchi, Y. Nishimura, M. Nagata and M. Yatsuzuka, Frontier of Applied Plasma Technology, 3,65-68 (2010).

7.酸化黒鉛もしくは有機修飾した酸化黒鉛の分散液からの炭素薄膜形成とその性質（解説）、松尾吉晃, 炭素、No245 (2010) 200-205.

8.Ion-solvent interaction for lithium-ion transfer at the interface between carbonaceous thin-film electrode and electrolyte, T. Fukutsuka, F. Sagane, M. Miyazaki, T. Abe, T. Toda, Y. Matsuo, Y. Sugie and Z. Ogumi, Tanso, No245 (2010) 188-191.

2009年

1.Preparation and characterization of pillared carbons obtained by pyrolysis of silylated graphite oxides,Y. Matsuo, Y. Sakai, T. Fukutsuka, and Y. Sugie, Carbon, 47, 804-811 (2009)

2.色素－シリル化層状化合物複合材料の合成と光機能（解説）、松尾吉晃、材料の科学と工学、46, 135-140 (2009)

3.The effect of alkyl chain length on the structure of pillared carbons prepared by the silylation of graphite oxide with alkyltrichlorosilanes, Y. Matsuo, Y. Komiya, and Y. Sugie, Carbon, 47, 2782-2788 (2009)

4.Preparation of Amorphous Carbon Films by Glow Discharge Plasma at Atmospheric Pressure, Y. Matsuo, Y. Horiguchi, Y. Nishimura, M. Yatsuzuka, ADVANCES IN APPLIED PLASMA SCIENCE, 7、251-254 (2009)

5.Covalent Attachment of Pyrene onto the Layer Surfaces of Silylated Magadiite at a High Concentration without Aggregation, Chem. Lett., 38, 1130-1131 (2009)

2008年

1.Silylation of graphite oxide by octyldimethylchlorosilane, Y. Matsuo, Y. Matsumoto, T. Fukutsuka and Y. Sugie, Tanso, 233, 115-118 (2008)

2.Removal of formaldehyde from gas phase by silylated graphite oxide containing amino groups, Y. Matsuo, Y. Nishino, T. Fukutsuka and Y. Sugie, Carbon, 46, 1162-1163　(2008)

3.Electrochemical behavior of various kinds of stainless steels in a high-temperature and high-pressure methol solution, D. Shintani, T. Ishida, T. Fukutsuka, Y. Matsuo and Y. Sugie, Corrosion, 64, 600-606 (2008)

4.XPS studies of passive film formed on stainless steel in high temperature and pressure methanol solution containing chloride ions, D. Shintani, T. Ishida, H. Izumi, T. Fukutsuka, Y. Matsuo and Y. Sugie, Corrosion Sci., 50, 2840-2845 (2008)

5.Preparation of silylated magadiite thin-film containing covalently attached pyrene chromophores, Y. Matsuo, Y.Yamada, M. Nishikawa, T. Fukutsuka, and Y. Sugie, J. Fluorine Chem., 129, 1150-1155 (2008)

2007年

1.Preparation and characterization of alkylamine-intercalated graphite oxide, Y. Matsuo, T. Miyabe, T. Fukutsuka and Y. Sugie, Carbon, 1005-1012, 45 (2007)

2.Synthesis and structure of intercalation comopunds containing perfluoroalkylgroups (review article), Y. Matsuo, J. Fluorine Chem., 336-343, 124 (2007)

3.Introduction of amino groups into the interlayer spacing of graphite oxide using 3-aminopropylethoxysilanes, Y. Matsuo, Y. Nishino, T. Fukutsuka and Y. Sugie, Carbon, 1384-1390, 45 (2007)

4.酸化黒鉛を原料とした新規な三元系層間化合物, 松尾吉晃、「炭素材料の新展開」　日本学術振興会第１１７委員会編　105-111 (2007)

5.酸化黒鉛層間化合物の合成、　松尾吉晃、炭素　228, 209-214 (2007)　（実験講座）

6.Preparation of Pillared Carbons by Pyrolysis of Silylated Graphite Oxide, Y. Matsuo, Y. Sakai, T. Fukutsuka, and Y. Sugie, Chem. Lett., 36, 1050-1051 (2007)

7.Preparation of Carbon-Coated Fe-based Metal for Bipolar Plates of PEFC, T. Fukutsuka, T. Yamaguchi, Y. Matsuo, Y. Sugie, and Z. Ogumi, Electrochemistry, 75, 152-154 (2007)

8.Preparation of carbonaceous thin films by plasma-assisted chemical vapor deposition using active fluorine atoms, T. Fukutsuka, Y. Matsuo, Y. Sugie, T. Abe and Z. Ogumi, Tanso, 230, 293-298 (2007)

9.Carbon-coated stainless steel as PEFC bipolar plate material, T. Fukutsuka, T. Yamaguchi, S. Miyano, Y. Matsuo, Y. Sugie and Z. Ogumi, J. Power Sources,174, 199-205 (2007)

10.プラズマCVD法による炭・f薄膜作製と・Gネルギーデバイスへの展開（解説）, 福塚友和，松尾吉晃，杉江他曾宏，安部武志，小久見善八, 炭素，230, 352-361 (2007)

11.Hydrophilic treatment of carbon-coated metal by plasma fluorination, T. Fukutsuka, S. Miyano, Y. Matsuo and Y. Sugie, Chem. Lett., 36, 1440-1441 (2007)

2006年

1.Dispersion of organic dyes in n-hexadecylamine-intercalated vanadium xerogel thin films, Y.Matsuo, N. Yamada, T. Fukutuska and Y. Sugie, Molecular Crystals and Liquid Crystals, 133-154, 452 (2006)

2.酸化黒鉛層間化合物の合成と性質　（解説）、松尾吉晃、福塚友和、杉江他曾宏、炭素、124-129, 222 (2006)

3.Monomeric dispersion of covalently attached pyrene chromophores in silylated graphite oxide, Y. Matsuo, T. Fukutsuka and Y. Sugie, Chem. Lett. 530-531, 35 (2006)

4.Reaction between dibutyltin oxide and graphite oxide, Y. Matsuo, Y. Matsumoto, T. Fukutsuka and Y. Sugie, Carbon, 3134-3135, 44 (2006)

2005年

1.Battery application of graphite intercalation compounds, Y. Matsuo, in Fluorinated Materials for Energy Conversion, T. Nakajima and H. Groult, eds, Elsevier Science, Chapter 18, 397-417 (2005)

2.Cathode properties of birnessite type manganese oxide prepared by using vanadium xerogel, Y. Matsuo, Y. Miyamoto, T. Fukutsuka and Y. Sugie, J. Power Sources, 300-303, 146(1/2) (2005)

3.Preparation of Surface-modified Carbonaceous Thin-Film Electrodes by NF3 Plasma and Their Electrochemical Properties, Tomokazu Fukutsuka, Satoshi Hasegawa, Yoshiaki Matsuo, Yosohiro Sugie, Takeshi Abe*, and Zempachi Ogumi*(*Kyoto Univ.) J.Power Sources, 151-155, 146(1-2), (2005).

4.Preparation and characterization of silylated graphite oxide, Y. Matsuo, T. Tabata, T. Fukunaga, T. Fukutsuka and Y. Sugie, Carbon, 2875-2882, 43 (2005)

2004年

1.新規黒鉛層間化合物の合成とエネルギー貯蔵, 松尾吉晃、福塚友和、杉江他曾宏、表面、372-382, 42 (2004)

2.Control of photochemical dimerization of acenaphtylene in graphite oxide intercalated by n-alkylamines with different alkyl chain length, Y. Matsuo, T. Fukunaga, N. Tokura, T. Fukutsuka and Y. Sugie, Trans. Mat. Res. Soc. Jpn, 3219-3222, 29 (2004)

3.Silylation of graphite oxide, Y. Matsuo, T. Fukunaga, T. Fukutsuka and Y. Sugie, Carbon, 2117-2119, 42 (2004)

4.メカニカルアローイング法による高窒素添・ﾁステンレス鋼の作製と局部腐食特性評価、福塚友和、安在哲也、兼田マミ、松尾吉晃、杉江他曾宏、深浦健三、材料, 53(11) (2004)

5.Enhanced fluorescence from rhodamine B intercalated into hydrophobized graphite oxides containing perfluoroalkyl chains, Y. Matsuo, T. Fukunaga, T. Fukutsuka and Y. Sugie, Chem. Lett, 1432-1433, 33(11) (2004)

6.Preparation of LiMn2O4 Thin-Film Electrode by the Oxygen Plasma-Assisted Sol-Gel Method, Tomokazu Fukutsuka, Kouta Sakamoto, Yoshiaki Matsuo, Yosohiro Sugie, Takeshi Abe*, and Zempachi Ogumi*(*Kyoto Univ.) accepted to Electrochemical and Solid-State Letters, A481-A483, 7(12) (2004)

7.「フッ素化学入門－先端テクノロジーに果たすフッ素化学の役割－」,日本学術振興会フッ素科学第1５５委員会編、共立出版、　25-35　（2004）

2003年

1.Butyrolactone derivatives as electrolyte additives for lithium ion batteries, Y. Matsuo. K. Fumita, T. Fukutsuka, Y. Sugie, H. Koyama (Daicel Chemical Industries LTD) and K. Inoue (Daicel Chemical Industries LTD),　J. Power Sources, 373-377, 119-121(1) (2003)

2.Photochemical Dimerization of Acenaphthylene in Hydrophobized Graphite Oxide(II), Y. Matsuo, T. Fukunaga, N. Tokura, T. Fukutsuka and Y. Sugie, Trans. Mat. Res. Soc. Jpn, 589-595, 28 (2003)

3.Characterization of n-hexadecylalkylamine-intercalated graphite oxides as sorbents, Y. Matsuo, K. Watanabe T. Fukutsuka, Y. Sugie, Carbon, 1545-1550, 41 (2003)

4.Electrochemical hydrogenation of carbon from pyrolysis of graphite oxide, Y. Matsuo, K. Kume, T. Fukutsuka, Y. Sugie, Carbon, 2167-2170, 41(11) (2003)

5.Surface plasma modifaication of carboaceous thin film electrodes, Tomokazu Fukutsuka, Satoshi Hasegawa, Tatsuya Katayama, Yoshiaki Matsuo, Yosohiro Sugie, Takeshi Abe* and Zempachi Ogumi* (*Kyoto Univ.), Electrochemistry, 1111-1113, 71 (2003)

6.Preparation and fluorescent properties of Rhodamine B-hexadecylamine-intercalated graphite oxide thin film, Y. Matsuo, T. Fukutsuka and Y. Sugie, Chem. Lett. 1004-1005, 32 (2003)

7.The Effect of Alloying Elements on the Rate of Growth of Individual Pits on Stainless Steels, Y. Marinovich, T. Fukutsuka, Y. Matsuo, and Y. Sugie, Developments in Chemical Engineering and Mineral Processing, 499-508, 11 (2003)

2002年

1.Photochemical dimerization of acenaphtylene in surfactant-intercalated graphite oxide, Y. Matsuo, T. Fukutsuka and Y. Sugie, Carbon, 958-961, 40 (2002)

2.Synthesis of Polyaniline-Intercalated Layered Materials via Exchange Reaction, Y. Matsuo, S. Higashika, K. Kimura(ニチリン), Y. Miyamoto, T. Fukutsuka and Y. Sugie, J. Materials Chemistry, 1592-1596,12 (2002)

3.Control of roughness in Mo/Al multilayer film fabricated by DC Magnetron Sputtering, H. Nii , M. Miyagawa, Y. Matsuo,Y. Sugie, M. Niibe, and H. Kinoshita, Jpn. J. Appl. Phys.,5338-5341, 41 (2002)

4.自己組織化による界面活性剤－酸化黒鉛層間化合物中のナノ空間へアゾベンゼンの導・・A　松尾吉晃、十倉直人、福塚友和、杉江他曾宏、炭素, 221-225, 205 (2002)

5.DNAハイブリダイゼーションにともなうアントラキノン修飾DNAの電気化学応答、熊本諭、中野英彦、松尾吉晃、杉江他曾宏、山名一成、Electrochemistry, 789-797, 70 (2002)

6.Photochemical Dimerization of Acenaphthylene in Hydrophobized Graphite Oxide, Yoshiaki Matsuo, TAKAHIRO FUKUNAGA,TOMOKAZU FUKUTSUKA and YOSOHIRO SUGIE, Molecular Crystals and Liquid Crystals, 45-50, 386 (2002)

7.Surface Modification of Carbonaceous Thin Films by NF3 Plasma and Their Effects on Electrochemical Properties.TOMOKAZU FUKUTSUKA, Yoshiaki Matsuo, YOSOHIRO SUGIE, TAKESHI ABE*, MINORU INABA*, and ZEMPACHI OGUMI*(*Kyoto Univ.), Molecular Crystals and Liquid Crystals, 388, 117-122 (2002)

2001年

1.Cyclic Voltammetric Responses in Hybrid Formation of 2'-Anthraquinone-modified Oligonucleotide, K. Yamana, S. Kumamoto, H. Nakano, Y. Matsuo and Y. Sugie, Chem. Lett., 1132 (2001)

2.Surface layer formation on a thin-film LiMn2O4 electrode at elevated temperatures, Y. Matsuo, R. Kostecki* and F. McLarnon* (*：Lawrence Berkeley National Laboratory), Journal of the Electrochemical Society, A687-A692, 148 (2001)

3.ポリア・jリン-酸化黒鉛層間化合物の充放電特性，東家慎二，木村健造(ニチリン)，松尾吉晃，杉江他曾宏, Electrochemistry, 530-535, 69 (2001)

4.Electrochemical Lithium Insertion / Extraction for Carbonaceous Thin Film Electrodes in Propylene Carbonate Solution, Tomokazu Fukutsuka, Takeshi Abe, Minoru Inaba,* Zempachi Ogumi,* Yoshiaki Matsuo, and Yosohiro Sugie, (*Kyoto University), Carbon Science, 129-132, 1 (2001)

2000年

1.Electrochemical fluorination of metals by using a fluoride ion conductor, Y. Matuso, T. Kakiya and Y. Sugie, J. Fluorine Chemistry, 257-261, 101 (2000)

1999年

1.Selective Intercalation of Aromatic Molecules into Alkyltrimethylammonium Ion-Intercalated Graphite Oxide, Yoshiaki Matsuo, Kazuya Hatase, and Yosohiro Sugie, Chemistry Letters, 1109-1110 (1999) 2.Monomer Emission from Pyrene Adsorbed in Surfactant-Intercalated Graphite Oxide, Yoshiaki Matsuo, Kazuya Hatase and Yosohiro Sugie, Chemical Communication, 43-44 (1999)

3.Electrochemical Lithiation of Carbon Prepared from Pyrolysis of Graphite Oxide, Y. Matsuo and Y. Sugie, J. Electrochemical Society, 2011-2014, 146 (1999)

4.ポリアニリン-酸化黒鉛層間化合物の合成と特性, 東家慎二，木村健造(ニチリン)，松尾吉晃，杉江他曾宏, 炭素，171-175, 160 (1999)

5.Preparation and characterization of cationic surfactant-intercalated graphite oxide,Y. Matsuo, T. Niwa and Y. Sugie, Carbon, 897-901, 37 (1999)

6.Synthesis of Polyaniline-intercalated graphite oxide , S. Higashika, K. Kimura (nichirin Co.Ltd.), Y. Matsuo and Y. Sugie, Carbon, 354-356, 37 (1999)

7.Interfacial studies of a thin-film Li2Mn4O9 electrode, R. Kostecki*, F. Kong*, Y. Matsuo and F. McLarnon* (*：Lawrence Berkeley National Laboratory), Electrochimica Acta, 225-233, 45 (1999)

1998年

1.Electrochemical intercalation of lithium into pyrolytic carbon from graphite oxide, Y. Matsuo and Y. Sugie, Denki Kagaku (Electrochemistry), 1288-1290, 66 (1998)

2.Preparation and characterization of poly(vinyl alcohol)-and Cu(OH)2-Poly(vinyl alcohol)-intercalated graphite oxides, Yoshiaki Matsuo, Kazuya Hatase and Yosohiro Sugie, Chemistry of Materials, 2266-2269, 10 (1998)

3.Preparation, structure and electrochemical property of pyrolytic carbon from graphite oxide, Y. Matsuo and Y. Sugie, Carbon, 301-303, 36 (1998)

4.Electrochemical fluorination of graphite in 47% HF aqueous solution, J. Fluorine Chemistry, Y. Matsuo, M. Segawa, J. Mitani and Y. Sugie,145-150, 87 (1998)

5.Micromachining of tin oxide film by electrochemical reduction process, Y. Matsuo, K. Hashimoto, Y. Sugie, T. Nakamura* and J. Tsunoda* (*：城洋), J. Eletrochem. Soc., 3067-3069, 145 (1998)

6.Pyrolytic carbon from graphite oxide as an anode of lithium-ion cells in 1M LiClO4-propylene carbonate solution, Y. Matsuo and Y. Sugie, Electrochem. and Solid State Letters, 204-206, 1 (1998)

1997年

1.Structure and thermal properties of poly(ethylene oxide)-intercalated graphite oxide, Y. Matsuo, K. Tahara and Y. Sugie, Carbon, 113-120, 35 (1997)

1996年

1.Synthesis of poly(ethylene oxide)-intercalated graphite oxide, Y. Matsuo, K. Tahara and Y. Sugie, Carbon, 672-674, 34 (1996)

2.Synthesis of fluorine-graphite intercalation compound by elemental fluoine and high oxidation-state transition-metal fluorides, T. Nakajima, Y. Matsuo, B. Zemva and A. Jesih, Carbon, 1595-1598, 34 (1996)

3.Synthesis and characterization of fluorinated carbon nanotube, T. Nakaima, S. Kasamatsu and Y. Matsuo, Eur. J. Solid State Inorg. Chem., 831-840, 33 (1996)

4.Vanadim oxide fluoride-graphite intercalation compounds: structural characteristics and electrochemical insertion of lithim cations, H. Groult,D. Devilliers, N. Kumagai, T. Nakajima and Y. Matsuo, J. Eletrochem. Soc., 2093-2099, 143 (1996)

5.Synthesis and spectroscopic study of fluorinated fullerene, C60, J. Fluorine Chemistry, Y. Matsuo, T. Nakajima and S. Kasamatsu, 7-13, 78 (1996)

6.Electrochemical properties of fluorinated fullerene C60, Y. Matsuo and T. Nakajima, Electrochimica Acta, 15-19, 41 (1996)

1995年

1.Carbon-fluorine bondings of fluorinated fullerene and graphite, Yoshiaki Matsuo and Tsuyoshi Nakajima, Z. anorg. allg. Chem., 1943-1950, 621 (1995)

2.Synthesis,structure and chemical bonding of carbon-fluorine materials, Yoshiaki Matsuo, Ph.D Thesis (Kyoto University)

1994年

1.Formation process and structure of graphite oxide, T. Nakajima and Y. Matsuo, Carbon, 469-475, 32 (1994)

2.Carbon-fluorine bonding of fullerene C60 fluorinated by elemental fluorine, with HF gas, under UV irradiation and in chlorofluoro-carbon solvent, T. Nakajima, Y. Matsuo, S. Kasamatsu and K Nakanishi, Carbon, 1177-1179, 32 (1994)

1993年

1.フッ化物イオン伝導体を用いたフッ素-グラファイト層間化合物の電気化学的合成，松尾吉晃，中島剛，元山宗之，炭素，272-278, 160 (1993)

2.フッ素化酸化グラファイトの放電特性，中島剛，松尾吉晃，森野寧規，電気化学，594-599, 61 (1993)

1992年

1.Chemical bonding and electrochemical reduction of fluorinated fullerene, T. Nakajima and Y. Matsuo, Carbon, 1119-1120, 30 (1992)