東京工業大学　物質理工学院　材料系

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2020年

研究論文/ 国際会議報告/ 総説・解説・著書/ 受賞/

1. Experimental and theoretical investigation of WOx modification effects on the photocatalytic activity of titanium-substituted hydroxyapatite
   K. Ishisone, N. Jiraborvornpongsa, T. Isobe, S. Matsushita, M. Wakamura, M. Oshikiri, A. Nakajima
   Appl. Catal. B: Environ., 264, 118516-118527 (2020).


2. Processing of transparent superhydrophobic films using cerium oxide particles with different aspect ratios
   T. Hirosawa, T. Isobe, S. Matsushita, A. Nakajima
   J. Ceram. Soc. Jpn, 128[4], 210-216 (2020).


3. In-situ Temperature Measurement of Local Photothermal Conversion
   T. Takeshima, A. Matsutani, M. Sato, K. Hasebe, T. Isobe, A. Nakajima, S. Matsushita
   Chem. Lett., 49, 469-472 (2020).


4. Preparation and properties of transparent solid-liquid hybrid materials using porous silica with silicone oil or ionic liquid
   Y. Higashino, T. Isobe, S. Matsushita, A. Nakajima
   Mater. Res. Bull., 130, 11902 (2020).


5. Aluminium metal-insulator-metal structure fabricated by the bottom-up approach
   Rie Watanabe, Mai Mita, Takayuki Okamoto, Toshihiro Isobe, Akira Nakajima, and Sachiko Matsushita,*
   Nanoscale Advances, 2, 2271-2275 (2020). (selected as a Hot Article)


6. Fog-harvesting performance of hydrophobic ZnO nanorods combined with nanoscale roughness on the topmost surface
   T. Kano, T. Hirosawa, T. Isobe, S. Matsushita, A. Nakajima,
   J. Ceram. Soc. Jpn, 128[11], 847-854 (2020). (selected for the cover of the issue)


7. Fermi Level Dependence of a Working Electrode on the Open Circuit Voltage in a Sensitized Thermal Cell
   Sachiko Matsushita*, Seiya Sugawara, Takumi Ikeda, Takuma Araki, Hayato Sekiya, Haruki Kohata, Toshihiro Isobe, and Akira Nakajima,
   Chemistry Letters, 49, 1013-1016 (2020).


8. Can CuFeS₂ be used in a sensitized thermal cell?
   Hayato Sekiya, Toshihiro Isobe, Akira Nakajima, Sachiko Matsushita,
   Materials Today Energy, 17, 100469 (2020).


9. Local structure investigation of WO_x cluster modified on titanium-substituted hydroxyapatite for promoting charge separation under UV illumination
   K. Ishisone, T. Isobe, S. Matsushita, M. Wakamura, T. Takei, A. Nakajima,
   J. Ceram. Soc. Jpn., 128[10], 798-804 (2020).


10. Effects of cerium and tungsten substitution on antiviral and antibacterial properties of lanthanum molybdate
    T. Matsumoto, K. Sunada, T. Nagai, T. Isobe, S. Matsushita, H. Ishiguro, A. Nakajima
    Mater. Sci. Eng. C, 111, 111323 (2020).


11. Liquid and Gas Separation Abilities of Carbon Membranes Synthesized Using Hydrothermal Method
    T. Isobe, S. Sano, M. Inada, S. Matsushita, A. Nakajima,
    J. Ceram. Soc. Jpn, 128[11], 918-921 (2020).


12. Plasmonic photothermal synthesis of ZnO microspheres on Au/SiO₂ nanostructures
    Jin Feng, Hiroaki Agawa, Zhengcao Li, Toshihiro Isobe, Akira Nakajima, Sachiko Matsushita,
    J. Appl. Phys., 128, 133105 (2020).


13. Negative thermal expansion in α-Zr₂SP₂O₁₂ based on phase transition- and framework-type mechanisms
    T. Isobe, Y. Hayakawa, Y. Adachi, R. Uehara, S. Matsushita, A. Nakajima
    NPG Asia Mater., 12, 80 (2020).

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SPIE Defence + Commercial Sensing, April 27th - May 1st, 2020 (Online Only, California, United States)

1. “Development of a sensitized “thermal” cell” (Invited Paper)
   Sachiko Matsushita

The 27th international workshop on active- matrix flatpanel displays and devices (AM-FPD20), Sep. 1-4, 2020 (Online only, Kyoto, Japan)

1. “"Sensitized "Thermal" Cell: A New Heat Conversion System to Electricity"(Invited)”
   S. Matsushita

Pacific Rim Meeting on Electrochemical and Solid State Science (PRiME) 2020, Ocr. 4-9, 2020 (Online only, Honolulu, Hawaii)

1. “Mechanism of a Sensitized Thermal Cell,” (Invited)
   S. Matsushita
2. “The Electrodes Distance Dependance of Battery Performance in Sensitized Thermal Cell”
   H. Kohata, T. Isobe, A. Nakajima, and S. Matsushita

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1. 酒井宗寿, 中島章：
   「撥水性固体表面における水滴の静的動的濡れ性に関する研究の最近のトピックス」
   色材協会誌、93[8]. 252-260 (2020).
2. 中島章：
   「撥水性と抗菌・抗ウイルス活性を併せ持つ革新的複合酸化物」
   化学工業、71[6], 357-364 (2020)
3. 酒井宗寿, 中島章：
   「材料表面の濡れ性の基礎と制御技術
   ―撥水・親水性・液体滑落性表面の作製方法と応用展開―」
   塗装工学、55[5]、181-192 (2020).
4. 松下祥子：
   「増感型熱利用発電の開発と展望」
   (「次世代熱電変換材料・モジュールの開発 -熱電発電の黎明-」)
   シーエムシー出版、p.79-86 (2020).
5. 磯部敏宏：
   負の熱膨張率を有する材料の最近の話題
   耐火物誌、72[2]、52-59 (2020).
6. 中島 章、砂田 香矢乃、永井 武、石黒 斉：
   「抗菌・抗ウイルス活性を有する撥水性複合酸化物」
   BIO INDUSTRY、37[11]、10-23 (2020).
7. 松下祥子：
   新しい熱エネルギーの利用法：増感型熱利用発電」
   Acc. Mater. Surf. Res.、5[3]、60-67 (2020).
   
8. 中島 章、砂田 香矢乃、永井 武、石黒 斉：
   「撥水性と抗菌・抗ウイルス活性を併せ持つ希土類モリブデン系複合酸化物」
   塗装工学、55[11]、431-442 (2020).
9. 松下祥子：
   「低温熱の新しい利用法―増感型熱利用発電―」
   雑誌「金属」、2020、90、1027.

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1. リバネス第1回エコテックグランプリ
   最優秀賞、サカタインクス賞、ダイキン賞: 松下祥子先生
   

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