学術雑誌に掲載された原著論文

1

Akane Yamada, Gen Onodera, Masanari Kimura, Kai Kamada, “Stabilization of α-ZrP ceramic nanosheets adsorbing quaternary ammonium ions in organic solvents and their application as a stable solid support for lipase catalyzing stereospecific synthetic reactions”, J. Asian Ceram. Soc., Vol. 10, pp. 338-345 (2022. 3. 31). [doi: 10.1080/21870764.2022.2051125]

2

Takeo Hyodo, Wataru Sakata, Taro Ueda, and Yasuhiro Shimizu, “Effects of surface modification of platinum electrodes with gold on hydrogen-sensing properties of diode-type sensors”, ECS Sensor Plus, Vol. 1, No. 1, Article No. 013602 (2022. 04.13). [doi: 10.1149/2754-2726/ac5b9f]

3

Taro Ueda, Nobumitsu Oide, Kai Kamada, Takeo Hyodo, and Yasuhiro Shimizu, “Improved toluene response of mixed-potential type YSZ-based gas sensors using CeO₂-added Au electrodes”, ECS Sensor Plus, Vol. 1, No. 1, Article No. 013604 (2022. 04.13). [doi: 10.1149/2754-2726/ac63d2]

4

Mehrdad Asgari, Fahimeh Hooriabad Saboor, Seyed Parsa Amouzesh, Martin Watt Coull, Abbas Ali Khodadadi, Yadollah Mortazavi, Takeo Hyodo, and Yasuhiro Shimizu, “Facile ultrasonic-assisted synthesis of SiO₂/ZnO core/shell nanostructures: A selective ethanol sensor at low temperatures with enhanced recovery”, Sensors and Actuators B, Vol. 368, Article No. 132187 (2022. 10). [doi: 10.1016/j.snb.2022.132187]

5

Takeo Hyodo, Toshiro Okusa, Wataru Sakata, Taro Ueda, and Yasuhiro Shimizu, “Impacts of surface modification of Pt-sensing electrodes with Au on hydrogen-sensing properties and mechanism of diode-type gas sensors based on anodized titania”, ACS Sensors (2022. 12). [doi: 10.1021/acssensors.2c01702]

学術雑誌に掲載された総説

1

Takeo Hyodo, “Development of advanced gas-sensing devices based on the microstructural and compositional controls of various promising materials and their different operating mechanism”, Journal of the Ceramic Society of Japan, Vol. 130, pp. 739–751 (2022. 9).（査読有） [doi: 10.2109/jcersj2.22071]

該当なし

邦文

学術雑誌に掲載された原著論文

1

兵頭健生，上田太郎，清水康博, “室温で作動する新しい電気化学式COセンサ”，セラミックス，日本セラミックス協会，Vol. 57, No. 12, pp. 801–804 (2022. 12). [URL]

学術雑誌に掲載された総説

著書、プロシーディング

1

渡来壮一朗，上田太郎，鎌田　海，兵頭健生，清水康博，“多孔質CuOx-SnO₂系ガスセンサへのAu添加がVOC検知特性に与える影響”，Chemical Sensors, Vol. 38, No. A (Proc. of the 70th Chemical Sensor Symp.), Web, pp. 4–6 (2022. 3). [https://chemsens.electrochem.jp/journal/2022/2022a-abt.html#2]

2

上田太郎，Boehme Inci，兵頭健生，清水康博，Weimar Udo，Barsan Nicolae，“多孔質In₂O₃系半導体式NO₂センサ：Au担持が応答特性に及ぼす効果�U”，Chemical Sensors, Vol. 38, No. A (Proc. of the 70th Chemical Sensor Symp.), Web, pp. 37–39 (2022. 3). [https://chemsens.electrochem.jp/journal/2022/2022a-abt.html#13]

3

川越勇介，上田太郎，長瀬徳美，鈴木卓弥，江戸雅晴，鎌田　海，兵頭健生，清水康博，“ジルコニアセンサの可燃性ガスに対する反応機構の解明”，Chemical Sensors, Vol. 38, No. B (Proc. of the 71st Chemical Sensor Symp.)，横浜，pp. 73–75 (2022. 9). [https://chemsens.electrochem.jp/journal/2022/2022b-abt.html#23]

4

大山望夢，上田太郎，岡安克也，江幡弘道，土肥　学，鎌田　海，兵頭健生，清水康博，“カチオン交換膜と貴金属電極を用いた室温作動可能なCOセンサの開発”，Chemical Sensors, Vol. 38, No. B (Proc. of the 71st Chemical Sensor Symp.)，横浜，pp. 79–81 (2022. 9). [https://chemsens.electrochem.jp/journal/2022/2022b-abt.html#25]

5

上田太郎，“機能性セラミックスのガス検知機能最適化による高感度ガスセンサの開発”，Chemical Sensors, Vol. 38, No. B (Proc. of the 71st Chemical Sensor Symp.)，横浜，pp. 91–93 (2022. 9). [https://chemsens.electrochem.jp/journal/2022/2022b-abt.html#seimyama]

学内紀要、各省庁の研究助成及び研究委託による成果等

その他

1

吉見靖男，兵頭健生，板垣吉晃，井上久美，“学会・研究会レポート「第98回化学センサ研究会」”，Chemical Sensors, Vol. 38, No. 1, pp. 15–17 (2022. 03).