関西大学　電気化学研究室

~ Electrochemistry Laboratory ~

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2023年度

1. Takeshi Tonoya, Hisanori Ando, Nobuhiko Takeishi, Hiroshi Senoh, Toshikatu Kojima, Hidenori Hinago, Yukiko Matsui, and Masashi Ishikawa: Capacity Decay Mechanism of Lithium-sulfur Batteries Using a Microporous Activated Carbon-sulfur Composite as Cathode Material, The Journal of Physical Chemistry C, 2023(127), pp.10038-10044 (2023.05.22).
   DOI：https://doi.org/10.1021/acs.jpcc.3c01961
2. Takeshi Tonoya, Yukiko Matsui, Hidenori Hinago, and Masashi Ishikawa: Performance Stabilization of Lithium-sulfur Batteries Containing Sulfolane-based Electrolyte and Microporous Cathode by Controlling Working Voltage Range, Electrochemistry, 91(6), 067002 (2023.06.12)
   DOI：https://doi.org/10.5796/electrochemistry.23-00037
3. 角谷賢二, 三垣千秋, 澤田昂明, 石川正司:造山古墳陪塚の榊山古墳近辺の畑で出土した石片について,
   国際美術研究所ホームページ (2023.06.12)
   
4. Luna Yoshida, Yukiko Matsui, Minako Deguchi, Hakari Takashi, Masayoshi Watanabe, and Masashi Ishikawa: Improvement of Lithium-sulfur Battery Performance by Porous Carbon Selection and LiFSI/DME Electrolyte Optimization, ACS Applied Materials & Interfaces, 2023,15,37467-37476.
   DOI：http://doi.org/10.1021/acsami.3c06624
5. Yuya Torii, Yukiko Matsui, Kentaro Yamamoto, Satoshi Uchida, Shigeaki Yamazaki, Toshiki Watanabe, Koji Nakanishi, Tomoki Uchiyama, Yoshiharu Uchimoto, and Masashi Ishikawa: Preventing Capacity Fading in Lithium–sulfur Batteries Using Sulfur Confinement in Mesoporous Carbon and Fluorinated Solvent-based Electrolytes ,The Journal of Physical Chemistry C , in 2023,127,15069-15077.
   DOI：http://doi.org/10.1021/acs.jpcc.3c02992
6. Yusuke Shimoda, Yukiko Matsui, Takeshi Tonoya, and Masashi Ishikawa: Potassium Bis (fluorosulfonyl) inide is an Effective Additive for Improving Anode Cyclability in Sulfolane-based Electrolytes for Li-S Batteries  ,ACS Applied Energy Material, in press.
   DOI : https://doi.org/10.1021/acsaem.3c01513         
   

2022年度

1. Jakub Menzel, Adam Slesinski, Przemyslaw Galek, Paulina Bujewska, Andrii Kachmar, Elzbieta Frackowiak, Ayumi Washio, Hirofumi Yamamoto, Masashi Ishikawa, and Krzysztof Fic: Operando Monitoring of Activated Carbon Electrodes Operating with Aqueous Electrolytes, Energy Storage Materials, 49(2022), pp.518-528 (2022.04.25).
   DOI：https://doi.org/10.1016/j.ensm.2022.04.030
2. Daisuke Okuda, Hiroaki Kobayashi, and Masashi Ishikawa: A Higher Redox Potential of Solid State Oxygen Redox in Li₄SiO₄–LiCoO₂ Nano Composite Cathode, Ceramics International, in press.
   DOI：https://doi.org/10.1016/j.ceramint.2022.07.093
3. Takeshi Tonoya, Yukiko Matsui, Hidenori Hinago, and Masashi Ishikawa: Microporous Activated Carbon Derived from Azulmic Acid Precursor with High Sulfur Loading and Its Application to Lithium-sulfur Battery Cathode, Electrochemistry Communications, 140, 107333 (2022.07.01、2022.08.06:online).
   DOI：https://doi.org/10.1016/j.elecom.2022.107333
4. Luna Yoshida, Takashi Hakari, Yukiko Matsui, and Masashi Ishikawa:Polyglycerol-functionalized Microporous Carbon/sulfur Cathode for Li-S Battery, Electrochimica Acta, 429, 141000 (2022.08.10:online, 2022.10.10).
   DOI：https://doi.org/10.1016/j.electacta.2022.141000
5. Takeshi Tonoya, Hirofumi Yamamoto, Yukiko Matsui, Hidenori Hinago, and Masashi Ishikawa: A Sulfolane-Based Electrolyte Optimized for Microporous Activated Carbon-Sulfur Composites for Lithium Sulfur Batteries, Electrochemistry, (2022.09.15:online,2022.10.20)

2021年度

1. Takuya Takahashi, Masashi Ishikawa, Yosuke Ugata, Kaoru Dokko, and Masayoshi Watanabe: Effects of Lithium Salt Concentration in Ionic Liquid Electrolytes on Battery Performance of LiNi0.5Mn0.3Co0.2O2/Graphite Cells, Electrochemistry, 89(5), pp.455-460 (2021.07.07).
   DOI：https://doi.org/10.5796/electrochemistry.21-00075

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2020年度

1. Mayuko Ogino, Ditpon Kotatha, Yoshiki Torii, Keito Shinomiya, Satoshi Uchida, Tetsuya Furuike, Hiroshi Tamura, and Masashi Ishikawa: Preparation and Electrochemical Performance of Chitosan-based Gel Polymer Electrolyte Containing Ionic Liquid for Non-aqueous Electric Double Layer Capacitor, Electrochemistry, 88(3), pp.132-138 (2020.04.21).
   DOI：https://doi.org/10.5796/electrochemistry.20-63009
2. Krzysztof Fic, Shinya Morimoto, Elzbieta Frackowiak, and Masashi Ishikawa: Redox Activity of Bromides in Carbon-based Electrochemical Capacitors, Batteries & Supercaps, 2020, 3(10), pp.1080-1090 (2020.05.25).
   DOI：https://doi.org/10.1002/batt.202000061
3. Daisuke Okuda, Hiroaki Kobayashi, and Masashi Ishikawa: Electrochemical Characteristics of Co-substituted α- and β-Li5AlO4 as High-specific Capacity Positive Electrode Materials, ACS Omega, 5(27), pp.16912-16918 (2020.06.30).
   DOI：https://doi.org/10.1021/acsomega.0c02111
4. Satoshi Uchida, Junichi Inamoto, Yoshiaki Matsuo, Katsumi Maeda, Takuya Masuyama, Kaoru Tsukamoto, Masashi Ishikawa, and Yuta Sato: Graphene-like Graphite Negative Electrode Rapidly Chargeable at Constant Voltage, Journal of The Electrochemical Society, 167(11), 110518 (2020.07.08).
   DOI：https://dx.doi.org/10.1149/1945-7111/aba1a7
5. Junichi Inamoto, Yoshiaki Matsuo, Katsumi Maeda, Satoshi Uchida, Masashi Ishikawa, Takuya Masuyama, Kaoru Tsukamoto, and Yuta Sato: Effect of Hydrogen-gas Treatment on the Local Structure of Graphene-like Graphite, CARBON, 163, pp.162-168 (2020.08.15).
   DOI：https://doi.org/10.1016/j.carbon.2020.03.016
6. Daisuke Okuda, Hiroaki Kobayashi, and Masashi Ishikawa: Electrochemical Characteristics and Charge-discharge Mechanisms of Co-substituted Li5AlO4 as a Novel Positive Electrode Material, Solid State Ionics, 353, 115374 (2020.10.01).
   DOI：https://doi.org/10.1016/j.ssi.2020.115374
7. Daisuke Okuda, Hiroaki Kobayashi, and Masashi Ishikawa: Charge-discharge Mechanism and Capacity Degradation of Co-substituted Li5AlO4 during Cycling, Materials Chemistry and Physics, 255(15), 123619 (2020.10.01).
   DOI：https://doi.org/10.1016/j.matchemphys.2020.123619
8. Yao Xiao, Kentaro Yamamoto, Yukiko Matsui, Toshiki Watanabe, Koji Nakanishi, Tomoki Uchiyama, Shoso Shingubara, Masashi Ishikawa, and Yoshiharu Uchimoto: Operando Soft X-ray Absorption Spectroscopic Study on Microporous Carbon-supported Sulfur Cathodes, RSC Advances, 2020(10), pp.39875-39880 (2020.11.02).
   DOI：http://doi.org/10.1039/d0ra08299f
9. Yao Xiao, Kentaro Yamamoto, Yukiko Matsui, Toshiki Watanabe, Atsushi Sakuda, Koji Nakanishi, Tomoki Uchiyama, Akitoshi Hayashi, Shoso Shingubara, Masahiro Tatsumisago, Masashi Ishikawa, Masayoshi Watanabe, and Yoshiharu Uchimoto: Comparison of Sulfur Cathode Reactions between a Concentrated Liquid Electrolyte System and a Solid-state Electrolyte System by Soft X-ray Absorption Spectroscopy, ACS Applied Energy Materials, 2021, 4, pp.186-193 (2020.12.17).
   DOI：http://doi.org/10.1021/acsaem.0c02063

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2019年度

1. Junichi Inamoto, Shunya Maruyama, Yoshiaki Matsuo, Satoshi Uchida, Katsumi Maeda, and Masashi Ishikawa: Effects of Pre-lithiation on the Electrochemical Properties of Graphene-like Graphite, Electrochemistry, 87(5), pp.260-264 (2019.07.22). DOI：https://doi.org/10.5796/electrochemistry.19-00027
2. Satoshi Uchida, Tomohide Katada, and Masashi Ishikawa: Impact of Lithium-ion Coordination in Carbonate-based Electrolyte on Lithium-ion Intercalation Kinetics into Graphite Electrode, Electrochemistry Communications, 114(May 2020), 106705 (2020.03.06). DOI：https://doi.org/10.1016/j.elecom.2020.106705

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2018年度

1. Tetsuya Tsuda, Akihito Imanishi, Teruki Sano, Amane Sawamura, Toshiki Kamidaira, Chih-Yao Chen, Satoshi Uchida, Shohei Kusumoto, Masashi Ishikawa, and Susumu Kuwabata:In situ Electron Microscopy and X-ray Photoelectron Spectroscopy for High Capacity Anodes in Next-generation Ionic Liquid-based Li Batteries, Electrochimica Acta, 279, pp.136-142 (2018.05.15).
2. Naoya Hirota, Kazuki Okuno, Masatoshi Majima, Akihisa Hosoe, Satoshi Uchida, and Masashi Ishikawa: High-performance Lithium-ion Capacitor Composed of Electrodes with Porous Three-dimensional Current Collector and bis(fluorosulfonyl)imide-based Ionic Liquid Electrolyte, Electrochimica Acta, 276, pp.125-133 (2018.06.20).
3. Ditpon Kotatha, Yoshiki Torii, Keito Shinomiya, Mayuko Ogino, Satoshi Uchida, Masashi Ishikawa, Tetsuya Furuike, and Hiroshi Tamura:Preparation of Thin-film Electrolyte from Chitosan-containing Ionic Liquid for Application to Electric double-layer Capacitors, International Journal of Biological Macromolecules, 124(2019), pp.1274-1280 (2019.12.03).
4. Ditpon Kotatha, Masaharu Hirata, Mayuko Ogino, Satoshi Uchida, Masashi Ishikawa, Tetsuya Furuike, and Hiroshi Tamura: Preparation and Characterization of Electrospun Gelatin Nanofibers for Used as Nonaqueous Electrolyte in Electric Double-layer Capacitor, Journal of Nanotechnology, 2019, ID:2501039 (2019.02.24).

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2017年度

1. 内田 悟史, 石川 正司: 高エネルギー密度リチウムイオン電池のためのLiFSIを用いた低EC組成電解液, Electrochemistry, 85(8), pp.490-494 (2017.08.05).
2. Satoshi Uchida and Masashi Ishikawa: Lithium bis(fluorosulfonyl)imide Based Low Ethylene Carbonate Content Electrolyte with Unusual Solvation State, Journal of Power Source, 359, pp.480-486 (2017.08.15).
3. Chih-Yao Chen, Amane Sawamura, Tetsuya Tsuda, Satoshi Uchida, Masashi Ishikawa, and Susumu Kuwabata: Visualization of Si Anode Reactions in Coin-type Cells via Operando Scanning Electron Microscopy, ACS Applied Materials & Interfaces, 9(41), pp.35511-35515 (2017.09.28).
4. Shinya Usuki, Satoshi Uchida, Yukiko Matsui, Masaki Yamagata, Hidenori Hinago, and Masashi Ishikawa: Preparation of Micropore-rich High Surface Area Activated Carbon from N-doped Carbon Precursor and Its Application to Positive Electrode in Lithium-sulfur Battery, Electrochemistry, 85(10), pp.650-655 (2017.10.05). 平成30年度電気化学会論文賞受賞
5. Sota Okabe, Satoshi Uchida, Yukiko Matsui, Masaki Yamagata, and Masashi Ishikawa: Performance Enhancement of Rechargeable Sulfur Cathode Utilizing Microporous Activated Carbon Composite, Electrochemistry, 85(10), pp.671-674 (2017.10.05).
6. Ditpon Kotatha, Kenta Morishima, Satoshi Uchida, Mayuko Ogino, Masashi Ishikawa, Tetsuya Furuike, and Hiroshi Tamura: Preparation and Characterization of Gel Electrolyte with Bacterial Cellulose Coated with Alternating Layers of Chitosan and Alginate for Electric Double-layer Capacitors, Research on Chemical Intermediates, 44(8), pp.4971-4987 (2018.02.24).
7. 内田 悟史, 今村 詩穂, 石川 正司: A New Prospect for Stabilization of Graphite Electrode/electrolyte Interface in Bis(fluorosulfonyl)imide Anion-based Ionic Liquid Electrolyte, Electrochemistry, 86(2), pp.29-31 (2018.03.05).

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2016年度

1. Kenji Kiyohara, Masaki Yamagata, Masashi Ishikawa: Electrochemical and Structural Properties of the Electrical Double Layer of Two-component Electrolytes in Response to Varied Electrode Potential, The Journal of Chemical Physics, 144, pp.134701-1~134701-10 (2016.04.04).
2. Shigeaki Yamazaki, Tatsuya Ito, Yuka Murakumo, Toshiharu Shimooka, Masaki Yamagata, Masashi Ishikawa: Hybrid Capacitors Utilizing Halogen-based Redox Reactions at Interface between Carbon Positive Electrode and Aqueous Electrolytes, Journal of Power Sources, 326, pp.580-586 (2016.08.05).
3. Takashi Iwahashi, Yujiro Miwa, Wei Zhou, Yasunari Sakai, Masaki Yamagata, Masashi Ishikawa, Doseok Kim, Yukio Ouchi: IV-SFG Studies on the Effect of Li+ in Extending the Electrochemical Window at the Pt|[C2mim][FSA] Interface, Electrochemistry Communications, 72, pp.54-58 (2016.09.08).
4. Chih-Yao Chen, Teruki Sano, Tetsuya Tsuda, Koichi Ui, Yoshifumi Oshima, Masaki Yamagata, Masashi Ishikawa, Masakazu Haruta, Takayuki Doi, Minoru Inaba, and Susumu Kuwabata: In situ Scanning Electron Microscopy of Silicon Anode Reactions in Lithium-ion Batteries during Charge/discharge Processes, Nature Communications, Scientific Reports, 6:36153 (2016.10.26).

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2015年度

1. Yukiko Matsui, Masaki Yamagata, Satoshi Murakami, Yasuteru Saito, Tetsuya Higashizaki, Eriko Ishiko, Michiyuki Kono, and Masashi Ishikawa: Design of an Electrolyte Composition for Stable and Rapid Charging-discharging of a Graphite Negative Electrode in a bis(fluorosulfonyl)imide-based Ionic Liquid, Journal of Power Sources, 279, pp.766-773 (2015.04.01).
2. Kazunari Soeda, Masaki Yamagata, and Masashi Ishikawa: Outstanding Features of Alginate-based Gel Electrolyte with Ionic Liquid for Electric Double Layer Capacitors, Journal of Power Sources, 280, pp.565-572 (2015.04.15).
3. Kazunari Soeda, Masaki Yamagata, Masashi Ishikawa: Alginic Acid as a New Aqueous Slurry-based Binder for Cathode Materials of LIB, ECS Transactions, 64(18), pp.13-22 (2015.05).
4. Masaki Yamagata, Kohei Tanaka, Yoshihiro Tsuruda, Yoshitsugu Sone, Seisuke Fukuda, Shinichi Nakasuka, Michiyuki Kono, and Masashi Ishikawa: The First Lithium-ion Battery with Ionic Liquid Electrolyte Demonstrated in Extreme Environment of Space, Electrochemistry, 83(10), pp.918-924 (2015.10.05).
5. Takuya Takahashi, Masaki Yamagata, and Masashi Ishikawa: A Sulfur–microporous Carbon Composite Positive Electrode for Lithium/sulfur and Silicon/sulfur Rechargeble Batteries, Progress in Natural Science: Materials International, 25(6), pp.612-621 (2015.12.23).

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2014年度

1. Tetsuya Tsuda, Itsuki Kokubo, Masakatsu Kawabata, Masaki Yamagata, Masashi Ishikawa, Shohei Kusumoto, Akihito Imanishi, and Susumu Kuwabata: Electrochemical Energy Storage Device with a Lewis Acidic AlBr₃-1-Ethyl-3-methylimidazolioum Bromide Room-temperature Ionic Liquid, Journal of The Electrochemical Society, 161(6), pp.A908-A914 (2014.04.22).
2. Satoshi Uchida, Megumi Mihashi, Masaki Yamagata, and Masashi Ishikawa: Electrochemical Properties of Non-nano-silicon Negative Electrodes Prepared with a Polyimide Binder, Journal of Power Sources, 273, pp.118-122 (2015.01.05).
3. Satoshi Uchida, Masashi Ishikawa, and Masaki Yamagata: Effect of Electrolyte Additives on Non-Nano-Si Negative Electrodes Prepared with Polyimide Binder, Journal of The Electrochemical Society, 162(3), pp.A406-A412 (2015.03.01).
4. Tetsuya Tsuda, Tsukasa Kanetsuku, Yoshifumi Oshima, Koichi Ui, Masaki Yamagata, Masashi Ishikawa, and Susumu Kuwabata: in situ SEM Observation of the Si Negative Electrode Reaction in an Ionic-liquid-based Lithium-ion Secondary Battery, Microscopy, 2015, 64(1), pp.1-10 (2015.02.16).

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2013年度

1. Masaki Yamagata, Kazunari Soeda, Shota Ikebe, Shigeaki Yamazaki, and Masashi Ishikawa: Chitosan-based Gel Electrolyte Contaning an Ionic Liquid for High-performance Nonaqueous Supercapacitors., Electrochimica Acta,100(30), pp.275-280 (2013.05.18).
2. Masaki Yamagata, Nobuhide Nishigaki, Satoshi Nishishita, Yukiko Matsui, Toshinori Sugimoto, Manabu Kikuta, Tetsuya Higashizaki, Michiyuki Kono, and Masashi Ishikawa: Charge-discharge Behavior of Graphite Negative Electrodes in Bis (fluorosulfonyl) imide-based Ionic Liquid and Structural Aspect of Their Electrode / electrolyte Interfaces. Renewable Energy Global Innovations [Electrochimica Acta, 110, pp.181-190 (2013.11.07)] (2013.05.18).
3. Masaki Yamagata, Shota Ikebe, Yuki Kasai, Kazunari Soeda, and Masashi Ishikawa: Dramatic Improvements in Electric Double-layer Capacitors Using Polysaccharides, ECS Transactions, 50(43), pp.27-36 (2013.05.24).
4. 石川 正司: リチウム電池とキャパシタ (Technical Prospect for Lithium-ion Batteries and Capacitors), 表面科学, 34(7), pp.389-390 (2013.07.10).
5. Masashi Ishikawa and Masaki Yamagata: FSI-based Ionic Liquid Electrolyte and Its Specific Effects with Other Component Materials on Li Battery Performance, ECS Transactions, 50(26), pp.317-327 (2013.07.17).
6. Masaki Yamagata, Nobuhide Nishigaki, Satoshi Nishishita, Yukiko Matsui, Toshinori Sugimoto, Manabu Kikuta, Tetsuya Higashizaki, Michiyuki Kono, and Masashi Ishikawa: Charge-discharge Behavior of Graphite Negative Electrodes in Bis(fluorosulfonyl)imide-based Ionic Liquid and Structural Aspects of Their Electrode/electrolyte Interfaces, Electrochimica Acta, 110, pp.181-190 (2013.11.07)
7. Masaki Yamagata, Masaya Hirayama, Satoshi Nishishita, Daisuke Horikawa, and Masashi Ishikawa: Impact of Lithium Salt Addition to Ionic Liquid Electrolytes for High-performance Electric Double-layer Capacitors, Electrochemistry, 81(10), pp.857-862 (2013.10.05).
8. Kazunari Soeda, Masaki Yamagata, Shigeaki Yamazaki, and Masashi Ishikawa: Application of Chitosan-based Gel Electrolytes with Ionic Liquids for High-performance and Safe Electric Double Layer Capacitors, Electrochemistry, 81(10), pp.867-872 (2013.10.05).
9. Kazunari Soeda, Yukiko Matsui, Masaki Yamagata, and Masashi Ishikawa: Application of Alginate Binders to Graphite Electrodes and Characterization of Their Lithium-ion Battery Performance, ECS Transactions, 53(29), pp.93-102 (2013.10.18).
10. Satoshi Uchida, Masaki Yamagata, and Masashi Ishikawa: Novel Rapid Synthesis Method of LiFePO4/C Cathode Material by High-frequency Induction Heating, Journal of Power Sources, 243, pp.481-487 (2013.12.01).
11. Satoshi Uchida, Masaki Yamagata, and Masashi Ishikawa: Optimized Condition of High-frequency Induction Heating for LiFePO4 with Ideal Crystal Structure, Journal of Power Sources, 243, pp.617-621 (2013.12.01).

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2012年度

1. 竹野一基, 山崎穣輝, 山縣雅紀, 石川正司: イオン液体を含有するキトサンゲル電解質の作製およびそれを用いたリチウムイオン電池の炭素負極特性, キチン・キトサン研究, 18(1), pp.47-53, (2012.04.01).
2. S. Yamazaki, T. Ito, M. Yamagata, and M. Ishikawa: Performance of Non-aqueous Electrochemical Capacitor Utilizing Halogen Redox Reaction, ECS Transactions, 41(22), pp.15-23 (2012.05.07).
3. M. Yamagata, K. Soeda, S. Ikebe, S. Yamazaki, and M. Ishikawa: Polysaccharide-based Gel Electrolytes Containing Hydrophobic Ionic Liquids for Electric Double-layer Capacitors, ECS Transaction, 41(22), pp.25-34 (2012.05.07).
4. Y. Matsui, S. Kawaguchi, T. Sugimoto, M. Kikuta, T. Higashizaki, M. Kono, M. Yamagata, and M. Ishikawa: Charge-discharge Characteristics of a LiNi_1/3Mn_1/3Co_1/3O₂ Cathode in FSI-based Ionic Liquids, Electrochemistry, 80(10), pp.808-811 (2012.10.05).
5. S. Uchida, M. Yamagata, and M. Ishikawa: Improvement of Synthesis Method for LiFePO₄/C Cathode Material by High-frequency Induction Heating, Electrochemistry, 80(10), pp.825-828 (2012.10.05).
6. 石川正司, 竹野一基, 山崎穣輝, 山縣雅紀: リチウムイオン電池に適するイオン液体電解質の特性と機構, 溶融塩および高温化学, 55(3), pp.93-98 (2012.11.08).
7. M. Yamagata, S. Ikebe, K. Soeda, and M. Ishikawa: Ultrahigh-performance Nonaqueous Electric Double Layer Capacitors Using an Activated Carbon Composite Electrode with Alginate, RSC Advances2013, 3 (4), pp.1037-1040, (2012.11.21).
8. S. Yamazaki, T. Ito, M. Yamagata, and M. Ishikawa: Non-aqueous Electrochemical Capacitor Utilizing Electrolytic Redox Reactions of Bromide Species in Ionic Liquid, Electrochimica Acta, 86, pp.294-297, (2012.12.05).
9. M. Yamagata, Y. Matsui, T. Sugimoto, M. Kikuta, T. Higashizaki, M. Kono, and M. Ishikawa: High-performance Graphite Negative Electrode in a Bis(fluorosulfonyl)imide-based Ionic Liquid, Journal of Power Sources, 227, pp.60-64, (2013.01).

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2011年度

1. M. Yamagata, K. Soeda, S. Yamazaki, and M. Ishikawa: Alginate Gel Containing an Ionic Liquid and Its Application to Non-aqueous Electric Double Layer Capacitors, Electrochemical and Solid-state Letters, 14(11), pp.A165-A169 (2011.09.23).

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2010年度

1. 石川 正司: 新規材料適用によるキャパシタの高性能化, キャパシタ技術, 17(2), pp.24-31 (2010.04.30).
2. M. Yamagata, K. Soeda, S. Yamazaki, and M. Ishikawa: Charge-discharge Behavior of Electric Double-layer Capacitor with Alginate/ionic Liquid Gel Electrolyte, ECS Transactions, 25(35), pp.193-200 (2010.05).
3. T. Kitagawa, K. Azuma, M. Koh (Daikin Industries), A. Yamauchi (Daikin Industries), M. Kagawa (Daikin Industries), H. Sakata (Daikin Industries), H. Miyawaki (Daikin Industries), A. Nakazono (Daikin Industries), H. Arima (Daikin Industries), M. Yamagata, and M. Ishikawa: Application of Fluorine-containing Solvents to LiCoO₂ Cathode in High Voltage Operation,Electrochemistry, 78(5), pp.345-348 (2010.05.05).
4. T. Sugimoto (Elexcel), Y. Atsumi, M. Kono (Elexcel, Dai-ichi Kogyo Seiyaku), M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Elexcel), M. Yamagata, and M. Ishikawa: Application of bis(fluorosulfonyl)imide-based Ionic Liquid Electrolyte to Silicon-nickel-carbon Composite Anode for Lithium-ion Batteries, Journal of Power Sources, 195(18), pp.6153-6156 (2010.09.15).
5. S. Yamazaki, A. Takegawa (Graduate School of Science and Engineering, Kagoshima University), Y. Kaneko (Graduate School of Science and Engineering, Kagoshima University), J. Kadokawa (Graduate School of Science and Engineering, Kagoshima University), M. Yamagata, and M. Ishikawa: High/low Temperature Operation of Electric Double Layer Capacitor Utilizing Acidic Cellulose-chitin Hybrid Gel Electrolyte, Journal of Power Sources, 195(18), pp.6245-6249 (2010.09.15).
6. M. Ishikawa, M. Yamagata, T. Sugimoto, Y. Atsumi, T. Kitagawa, and K. Azuma: Li-ion Battery Performance with FSI-based Ionic Liquid Electrolyte and Fluorinated Solvent-based Electrolyte, ECS Transactions, 33(28), pp.29-36 (2011.01).

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2009年度

1. T. Sugimoto (Dai-ichi Kogyo Seiyaku), Y. Atsumi, M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Dai-ichi Kogyo Seiyaku), M. Kono (Dai-ichi Kogyo Seiyaku) and M. Ishikawa: Ionic Liquid Electrolyte Systems Based on Bis(fluorosulfonyl)imide for Lithium-ion Batteries, Journal of Power Sources, 189(1), pp.802-805 (2009.04.01).
2. M. Ishikawa, T. Sugimoto (Dai-ichi Kogyo Seiyaku), Y. Atsumi, M. Yamagata, M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Dai-ichi Kogyo Seiyaku) and M. Kono (Dai-ichi Kogyo Seiyaku): Electrochemical Lithium Insertion/extraction for Carbon Electrodes in FSI-based Ionic Liquids, ECS Transactions, 16(35), pp.67-73 (2009.05).
3. T. Sugimoto (Dai-ichi Kogyo Seiyaku), Y. Atsumi, N. Handa, M. Yamagata, M. Kono (Dai-ichi Kogyo Seiyaku), M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Dai-ichi Kogyo Seiyaku) and M. Ishikawa: Effects of Organic Additives on Lithium Insertion/extraction for Graphite Electrode in Ionic Liquid Electrolytes Based on Bis(fluorosulfonyl)imide, Electrochemistry, 77(8), pp.696-698 (2009.08.05).
4. 山崎穣輝, 岳川明彦(鹿児島大院・理工), 金子芳郎(鹿児島大院・理工), 門川淳一(鹿児島大院・理工), 山縣雅紀, 石川正司: セルロース‐キチンハイブリッドゲルの電気二重層キャパシタへの応用, キチン・キトサン研究, 15(2), pp.148-149 (2009.07).
5. 山崎穣輝, 岳川明彦(鹿児島大院・理工), 金子芳郎(鹿児島大院・理工), 門川淳一(鹿児島大院・理工), 山縣雅紀, 石川正司: セルロース‐キチンハイブリッドゲルを用いた電気二重層キャパシタの性能評価, キチン・キトサン研究, 15(2), pp.172 (2009.07). ポスター賞受賞
6. 石川正司, 杉本敏規(第一工業製薬), 厚見庸介, 山縣雅紀, 菊田学(第一工業製薬), 石古恵理子(第一工業製薬), 河野通之(第一工業製薬): FSI 系イオン液体電解液のリチウムイオン二次電池への応用, 電池技術, 21, pp.49-57 (2009.10.15).
7. R. Chandrasekaran, M. Koh (Daikin Industries), A. Yamauchi (Daikin Industries), and M. Ishikawa: Electrochemical Cell Studies Based on Non-aqueous Magnesium Electrolyte for Electric Double Layer Capacitor Applications, Journal of Power Sources, 195(2), pp.662-666 (2010.01.15).
8. S. Yamazaki, A. Takegawa (Graduate School of Science and Engineering, Kagoshima Univ.), Y. Kaneko (Graduate School of Science and Engineering, Kagoshima Univ.), J. Kadokawa (Graduate School of Science and Engineering, Kagoshima Univ.), M. Yamagata, and M. Ishikawa: Temperature Dependence of Electric Double-layer Capacitor Operation Utilizing Acidic Cellulose-chitin Hybrid Gel Electrolytes, ECS Transactions, 25(33), pp.107-116 (2010.01).
9. S. Yamazaki, A. Takegawa (Graduate School of Science and Engineering, Kagoshima Univ.), Y. Kaneko (Graduate School of Science and Engineering, Kagoshima Univ.), J. Kadokawa (Graduate School of Science and Engineering, Kagoshima Univ.), M. Yamagata, and M. Ishikawa: Performance of Electric Double-layer Capacitor with Acidic Cellulose-chitin Hybrid Gel Electrolyte, Journal of The Electrochemical Society, 157(2), pp.A203-A208 (2010.02).
10. S. Yamazaki, K. Obata (Daiwa Fine Chemicals), Y. Okuhama (Daiwa Fine Chemicals), Y. Matsuda (Kensei), M. Yamagata and, M. Ishikawa: Application of Activated Carbon/DNA Composite Electrodes to Aqueous Electric Double Layer Capacitors, Journal of Power Sources, 195(6), pp.1753-1756 (2010.03.15).
11. M. Yamagata, K. Soeda, S. Yamazaki, and M. Ishikawa: Charge-Discharge Behavior of Electric Double-Layer Capacitor with Alginate/Ionic Liquid Gel Electrolyte, ECS Transactions 25(35), pp.193-200 (2010.01).
12. S. Yamazaki, A. Takegawa (Graduate School of Science and Engineering, Kagoshima Univ.), Y. Kaneko (Graduate School of Science and Engineering, Kagoshima Univ.), J. Kadokawa (Graduate School of Science and Engineering, Kagoshima Univ.), M. Yamagata, and M. Ishikawa: Erratum to: An Acidic Cellulose-chitin Hybrid Gel as Novel Electrolyte for an Electric Double Layer Capacitor [Electrochem. Commun. 11 (2009) 68], Electrochemistry Communications, 12(3), pp.499 (2010.03).

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2008年度

1. T. Sugimoto (Dai-ichi Kogyo Seiyaku), M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Dai-ichi Kogyo Seiyaku), M. Kono (Dai-ichi Kogyo Seiyaku), and M. Ishikawa: Ionic Liquid Electrolytes Compatible with Graphitized Carbon Negative without Additive and Their Effects on Interfacial Properties, Journal of Power Sources, 183(1), pp.436-440 (2008.08.15).
2. M. Yamagata, Y. Fukuda, R. Tanaka, and M. Ishikawa: Effects of Li Ion on Electric Double Layer Involving Ionic Liquid Electrolyte, ECS Transactions, 16(1), 214th ECS Meeting, October 12 - October 17, 2008, Honolulu, HI, Electrochemical Capacitors and Hybrid Power Sources 2008, pp.133-138 (2008.10).
3. T. Sugimoto (Dai-ichi Kogyo Seiyaku), Y. Atsumi, N. Handa, M. Kono (Dai-ichi Kogyo Seiyaku), M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Dai-ichi Kogyo Seiyaku), and M. Ishikawa: Electrochemical Characterization of Lithium Ion Battery Containing Ionic Liquid Electrolytes Based on BIS(fluorosulfonyl) Imide [FSI], Proceedings of 2008 Joint Symposium on Molten Salts, 1P098, pp.817-822 (2008.10).
4. Y. Honda, T. Haramoto, M. Takeshige, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), K. Yoshikawa (Hitachi Zosen), and M. Ishikawa: Performance of Electric Double-layer Capacitor with Vertically Aligned MWCNT Sheet Electrodes Prepared by Transfer Methodology, Virtual Journal of Nanoscale Science & Technology, 18(16) (2008.10.20).
5. Y. Honda, M. Takeshige, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), K. Yoshikawa (Hitachi Zosen), S. Chakrabarti (Osaka Science & Technology Center), O. Suekane (Osaka Science & Technology Center), L. Pan (Osaka Prefecture University), Y. Nakayama (Osaka University, Osaka Prefecture University), M. Yamagata, and M. Ishikawa: Vertically Aligned Double-walled Carbon Nanotube Electrode Prepared by Transfer Methodology for Electric Double Layer Capacitor, Journal of Power Sources, 185(2), pp.1580-1584 (2008.12.01).
6. N. Handa, T. Sugimoto (Dai-ichi Kogyo Seiyaku), M. Yamagata, M. Kikuta (Dai-ichi Kogyo Seiyaku), M. Kono (Dai-ichi Kogyo Seiyaku), and M. Ishikawa: A Neat Ionic Liquid Electrolyte Based on FSI Anion for Electric Double Layer Capacitor, Journal of Power Sources, 185(2), pp.1585-1588 (2008.12.01).
7. 中山邦彦, 渋谷光夫(日本合成化学工業), 石川正司: 架橋PVAを高分子マトリックスとした電気二重層キャパシタ用水系ゲル電解質, Electrochemistry, 76(12), pp.886-890 (2008.12.05).
8. S. Yamazaki, A. Takegawa (Kagoshima University), Y. Kaneko (Kagoshima University), J. Kadokawa (Kagoshima University), M. Yamagata, and M. Ishikawa: An Acidic Cellulose-chitin Hybrid Gel as Novel Electrolyte for an Electric Double Layer Capacitor, Electrochemistry Communications, 11(1), pp.68-70 (2008.12.24).
9. Y. Honda, T. Haramoto, M. Takeshige, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), K. Yoshikawa (Hitachi Zosen), and M. Ishikawa: Performance of Electric Double-layer Capacitor with Vertically Aligned MWCNT Sheet Electrodes Prepared by Transfer Methodology, Journal of The Electrochemical Society, 155(12), A930-A935 (2008.12.01).
10. M. Yamagata, S. Konno (Kyoto University), and R. Hagiwara (Kyoto University): Fundamental Study of Room-temperature Fluorohydrogenate Ionic Liquids with N-Heterocyclic Cations, Annual Report of Quantum Science and Engineering Center, 10, pp.30-33 (2008).
11. R. Chandrasekaran, M. Koh (Daikin Industries), A. Yamaguchi (Daikin Industries), and M. Ishikawa:: Electrochemical Study on Aqueous Magnesium Nitrate Electrolyte System for EDLC Applications, Electrochemistry, 77(1), pp.51-55 (2009.01.05).
12. Y. Honda, T. Ono (Yamaguchi University), M. Takeshige, N. Morihara, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), K. Yoshikawa (Hitachi Zosen), M. Morita (Yamaguchi University), M. Yamagata, and M. Ishikawa: Effect of MWCNT Bundle Structure on Electric Double-layer Capacitor Performance, Virtual Journal of Nanoscale Science & Technology, 19(2) (2009.01.12).
13. Y. Honda, T. Ono (Yamaguchi University), M. Takeshige, N. Morihara, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), K. Yoshikawa (Hitachi Zosen), M. Morita (Yamaguchi University), M. Yamagata, and M. Ishikawa: Effect of MWCNT Bundle Structure on Electric Double-layer Capacitor Performance, Electrochemical and Solid-State Letters, 12(3), pp.A45-A49 (2009.03).
14. S. Yamazaki, A. Takegawa (Kagoshima University) , Y. Kaneko (Kagoshima University) , J. Kadokawa (Kagoshima University), M. Yamagata, and M. Ishikawa: Charge-discharge Behavior of Electric Double Layer Capacitor with Acidic Cellulose-chitin Hybrid Gel Electrolyte, ECS Transactions, 16(24), 214th ECS Meeting, October 12 - October 17, 2008, Honolulu, HI, Student Posters (General) - 21^th ECS Meeting/PRiME 2008, pp.31-36 (2009.03).
15. M. Yamagata, S. Konno (Kyoto University), K. Matsumoto (Kyoto University), and R. Hagiwara (Kyoto University): Room-temperature Fluorohydrogenate Ionic Liquids of Alkylpyridinium Cations and Allylated Quarternary Cyclic Ammonium Cations, Electrochemical Solid-State Letters, 12(7), pp.F9-F12 (2009).

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2007年度

1. Y. Nagao, Y. Nakayama , H. Oda, and M. Ishikawa: Activation of an Ionic Liquid Electrolyte for Electric Double Layer Capacitors by Addition of BaTiO3 to Carbon Electrodes, Journal of Power Sources, 166(2), pp.595–598 (2007.04.15).
2. Y. Honda, T. Haramoto, M. Takeshige, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), and M. Ishikawa: Aligned MWCNT Sheet Electrodes Prepared by Transfer Methodology Providing High-power Capacitor Performance, Electrochemical and Solid-State Letters, 10(4), A106-A110 (2007.04).
3. 本田裕一, 石川正司: MWCNT配向を維持した電極による薄型ハイパワーキャパシタ, Electrochemistry, 75(4), pp.379-384 (2007.04.05).
4. 石川正司, 杉本敏規, 長尾恭孝, 津田康裕, 福田恭丈: イオン液体を用いた電気化学蓄電デバイス高性能化の検討, 溶融塩および高温化学, 50(2), pp.80-88 (2007.05.24).
5. Y. Honda, M. Takeshige, H. Shiozaki (Hitachi Zosen), T. Kitamura (Hitachi Zosen), and M. Ishikawa: Excellent Frequency Response of Vertically Aligned MWCNT Electrode for EDLC, Electrochemistry, 75(8), pp.586-588 (2007.08.05).
6. Y. Fukuda, R. Tanaka, and M. Ishikawa: Beneficial Effects of a Li Salt on Electrode Behavior in an Ionic Liquid for Electric Double Layer Capacitors, Electrochemistry, 75(8), pp.589-591 (2007.08.05).
7. S. Yamazaki, K. Obata (Daiwa Fine Chemicals), Y. Okuhama (Daiwa Fine Chemicals), Y. Matsuda (Kensei), and M. Ishikawa: Activated Carbon/DNA Composite Electrodes for Electric Double Layer Capacitors with Neutral Aqueous Electrolytes, Electrochemistry, 75(8), pp.592-594 (2007.08.05).
8. 石川正司, 本田裕一: CNTによる電気エネルギー貯蔵, 応用物理, 76(10), pp.1150-1153 (2007.10.10).

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2006年度

1. 山下曜, 岡本昌泰, 石川正司, 小田廣和: 炭素材料の表面化学構造の制御とその特性-電気容量に与える影響-, 表面科学, 27(8), pp.461-468 (2006.08.10).
2. M. Ishikawa, T. Sugimoto, M. Kikuta (Dai-ichi Kogyo Seiyaku), E. Ishiko (Dai-ichi Kogyo Seiyaku), and M. Kono (Dai-ichi Kogyo Seiyaku): Pure Ionic Liquid Electrolytes Compatible with a Graphitized Carbon Negative Electrode in Rechargeable Lithium-ion Batteries, Journal of Power Sources, 162(1), pp.658-662 (2006.11.08).
3. 下岡俊晴, 山崎穣輝, 杉本達弥, 定塚哲也, 寺石尚央, 長尾恭孝, 小田廣和, 松田好晴, 石川正司: 電気化学処理による水溶液電気二重層キャパシタの高容量化, Electrochemistry, 75(3), pp.273-279 (2007.03.05).

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2005年度

1. 石川正司: 大容量電気二重層キャパシタと高分子材料, 第一工業製薬社報「拓人」, 532, pp.12-16 (2005.04).
2. I. Murayama (Yamaguchi University), N. Yoshimoto (Yamaguchi University), M. Egashira (Yamaguchi University), M. Morita (Yamaguchi University), Y. Kobayashi (Sanyo Chemical Industries), and M. Ishikawa: Characteristics of Electric Double Layer Capacitors with an Ionic Liquid Electrolyte Containing Li Ion, Electrochemistry, 73(8), pp.600-602 (2005.08.05).
3. M. Ishikawa, H. Kawasaki (Yamaguchi University), N. Yoshimoto (Yamaguchi University), and M. Morita (Yamaguchi University): Pretreatment of Li Metal Anode with Electrolyte Additive for Enhancing Li Cycleability, Journal of Power Sources, 146(1-2), pp.199-203 (2005.08.26).
4. M. Morita (Yamaguchi University), H. Noborio (Yamaguchi University), N. Yoshimoto (Yamaguchi University), and M. Ishikawa: Ionic Conductance of Composite Electrolytes Based on Network Polymer with Ceramic Powder, Solid State Ionics, 177(7-8), pp.715-720 (2006.03.15).

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2004年度

1. N. Yoshimoto (Yamaguchi University), H. Nomura (Yamaguchi University), T. Shirai (Yamaguchi University), M. Ishikawa, and M. Morita (Yamaguchi University): Ionic Conductance of Gel Electrode Using a Polyurethane Matrix for Rechargeable Lithium Batteries, Electrochimica Acta, 50(2-3), pp.275-279 (2004.11.30).
2. M. Morita (Yamaguchi University), JL. Qiao (Yamaguchi University), N. Yoshimoto (Yamaguchi University), and M. Ishikawa: Application of Proton Conducting Polymeric Electrodes to Electrochemical Capacitors, Electrochimica Acta, 50(2-3), pp.837-841 (2004.11.30).
3. M. Morita (Yamaguchi University), T. Shirai (Yamaguchi University), N. Yoshimoto (Yamaguchi University), and M. Ishikawa: Ionic Conductance Behavior of Polymeric Gel Electrolyte Containing Ionic Liquid Mixed with Magnesium Salt, Journal of Power Sources, 139(1-2), pp.351-355 (2005.01.04).

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