PUBLICATIONS

S. Hideshima,* Y. Ogata, D. Takimoto, Y. Gogotsi, W. Sugimoto,* Vertically aligned MXene bioelectrode prepared by freeze-drying assisted electrophoretic deposition for sensitive electrochemical protein detection, Biosensors and Bioelectronics, 250, 116036 (2024). OPEN ACCESS

秀島 翔, 半導体を用いたウイルスセンシングのための界面機能化技術, 機材工, 10, 22 (2023).

D. Takimoto*, K. Suzuki, S. Hideshima, and W. Sugimoto, Origin of the Adsorption-Controlled Redox Behavior of Quinone-Based Molecules: Importance of the Micropore Width, Electrochemistry, 91, 077006 (2023). OPEN ACCESS　　　　　　　　2024年電気化学会論文賞

D. Takimoto*, K. Suzuki, S. Hideshima, and W. Sugimoto, Confinement Effects on the Rate Performance of Redox Active Molecules for Pseudocapacitive Flowable Electrodes, Electrochemistry, 91, 047005 (2023). OPEN ACCESS

S. Hideshima*, H. Hayashi, S. Saito, H. Tateno, T. Momma, T. Osaka*, A Non-Destructive Electrical Assay of Stem Cell Differentiation Based on Semiconductor Biosensing, Analysis & Sensing, 3, e202300003 (2022). Selected by Wiley-​VCH as a Hot Topic: Surfaces and Interfaces in Advanced Materials Interfaces, as an Editor’s Choice Spotlights, and as a Cover Picture.

S. Hideshima*, H. Hayashi, R. Takeuchi, S. Wustoni, S. Kuroiwa, T. Nakanishi, T. Momma, and T. Osaka*, Improvement in long-term stability of field effect transistor biosensor in aqueous environments using a combination of silane and reduced graphene oxide coating, Microelectronic Engineering, 264, 111859 (2022).

D. Takimoto*, K. Suzuki, R. Futamura, T. Iiyama, S. Hideshima, and W. Sugimoto, Zero-Overpotential Redox Reactions of Quinone-Based Molecules Confined in Carbon Micropores, ACS Applied Materials & Interfaces, 14, 31131 (2022).

R. Saito, H. Tanaka, K. Teshima, D. Takimoto, S. Hideshima, and W. Sugimoto*, Enhancement in the Charge-Transfer Kinetics of Pseudocapacitive Iridium-Doped Layered Manganese Oxide, Inorganic Chemistry, 61, 4566 (2022).

D. Takimoto*, S. Hideshima, and W. Sugimoto, Fabrication of Three-Dimensional Porous Materials with NiO Nanowalls for Electrocatalytic Oxygen Evolution, ACS Applied Nano Materials, 4, 8059 (2021).

秀島 翔, 半導体バイオセンサを用いたウイルスセンシング, セラミックス, 56, 4 (2021).

H. Hayashi, R. Toyama, R. Takibuchi, S. Hideshima, S. Kuroiwa, N. Kaneko, K. Horii, K. Ohashi, T. Momma, and T. Osaka*, Immobilization of Target-Bound Aptamer on Field Effect Transistor Biosensor to Improve Sensitivity for Detection of Uncharged Cortisol, Electrochemistry, 89, 134 (2021). OPEN ACCESS

​秀島 翔, ウイルスを捕まえる, バイオミディア, 生物工学会誌, 98, 551 (2020). OPEN ACCESS

杉本 渉, 滝本大裕, 秀島 翔, 二次元ナノマテリアルの電気化学応用, セラミックス, 55, 8 (2020).

H. Hayashi, N. Sakamoto, S. Hideshima*, Y. Harada, M. Tsuna, S. Kuroiwa, K. Ohashi, T. Momma and T. Osaka*, Tetrameric jacalin as a receptor for field effect transistor biosensor to detect secretory IgA in human sweat, Journal of Electroanalytical Chemistry, 873, 114371 (2020).

R. Saito, Y. Sato, D. Takimoto, S. Hideshima and W. Sugimoto*, Synergetic Effect of RuO2 Nanosheets as a Redox Active Binder for Aqueous Electrochemical Capacitors: The Case of MnO2, Electrochemistry, 88, 107 (2020). OPEN ACCESS

Y. Sato, S. Makino, D. Mochizuki, S. Hideshima* and W. Sugimoto*, Improved Water-stable Protected Anodes with Low Resistance for Aqueous Energy Storage Devices, Electrochemistry, 88,139 (2020). OPEN ACCESS

秀島 翔, 滝本大裕, 杉本 渉, 酸化ルテニウムの剥離ナノシートの合成と電気化学デバイス応用, エヌ・ティー・エス（ポストグラフェン材料の創製と用途開発最前線）, 第III編 第3章 第1節 (2020).

S. Hideshima*, H. Hayashi, H. Hinou, S. Nambuya, S. Kuroiwa, T. Nakanishi, T. Momma, S.-I. Nishimura, Y. Sakoda and T. Osaka*, Glycan-immobilized dual-channel field effect transistor biosensor for the rapid identification of pandemic influenza viral particles, Scientific Reports, 9, 11616 (2019). OPEN ACCESS

S. Hideshima*, S. Wustoni, M. Kobayashi, H. Hayashi, S. Kuroiwa, T. Nakanishi and T. Osaka*, Effect of human serum on the electrical detection of amyloid-β fibrils in biological environments using azo-dye immobilized field effect transistor (FET) biosensor, Sensing and Bio-Sensing Research, 17, 25 (2018). OPEN ACCESS

S. Hideshima*, M. Saito, K. Fujita, Y. Harada, M. Tsuna, S. Sekiguchi, S. Kuroiwa, T. Nakanishi and T. Osaka*, Label-free detection of allergens in food via surfactant-induced signal amplification using a field effect transistor-based biosensor, Sensors and Actuators B: Chemical, 254, 1011 (2018). OPEN ACCESS

K. Si, S. Cheng*, S. Hideshima, S. Kuroiwa, T. Nakanishi and T. Osaka, Multianalyte Detection of Cancer Biomarkers in Human Serum Using Label-Free Field Effect Transistor Biosensor, Sensors and Materials, 30, 991 (2018).

K. Ohashi, S. Kuroiwa, S. Hideshima, T. Nakanishi and T. Osaka*, Review of Physiological Balance Sensing in an Unobtrusive Manner, Electronics and Communications in Japan, 100, 50 (2017).

秀島 翔, 糖鎖を用いた半導体型ウイルスセンサ, BIO Clinica, 32, 393 (2017).

S. Wustoni, S. Hideshima, S. Kuroiwa, T. Nakanishi, Y. Mori and T. Osaka*, Conversion of protein net charge via chemical modification for highly sensitive prion detection using field effect transistor (FET) biosensor, Sensors and Actuators B: Chemical, 230, 374 (2016).

S. Hideshima, K. Fujita, Y. Harada, M. Tsuna, Y. Seto, S. Sekiguchi, S. Kuroiwa, T. Nakanishi and T. Osaka*, Signal amplification in electrochemical detection of buckwheat allergenic protein using field effect transistor biosensor by introduction of anionic surfactant, Sensing and Bio-Sensing Research, 7, 90 (2016). OPEN ACCESS

大橋啓之, 黒岩繁樹, 秀島 翔, 中西卓也, 逢坂 哲彌, 生体バランス物質のさりげないセンシングに関するレビュー, 電気学会論文誌Eセンサ・マイクロマシン部門誌, 136, 357 (2016).

S. Wustoni, S. Hideshima, S. Kuroiwa, T. Nakanishi, Y. Mori and T. Osaka*, Label-free detection of Cu(Ⅱ) in a human serum sample by using a prion protein-immobilized FET sensor, Analyst, 140, 6485 (2015).

S. Cheng, S. Hideshima, S. Kuroiwa, T. Nakanishi and T. Osaka*, Label-free detection of tumor markers using field effect transistor (FET)-based biosensors for lung cancer diagnosis, Sensors and Actuators B: Chemical, 212, 329 (2015).

S. Wustoni, S. Hideshima, S. Kuroiwa, T. Nakanishi, M. Hashimoto, Y. Mori and T. Osaka*, Sensitive electrical detection of human prion proteins using field effect transistor biosensor with dual-ligand binding amplification, Biosensors and Bioelectronics, 67, 256 (2015).

秀島 翔, 逢坂哲彌, 健康医療分野での応用を目指す半導体バイオセンシング, 化学センサ, 31, 98 (2015).

S. Cheng, K. Hotani, S. Hideshima, S. Kuroiwa, T. Nakanishi, M. Hashimoto, Y. Mori and T. Osaka*, Field Effect Transistor Biosensor Using Antigen Binding Fragment for Detecting Tumor Marker in Human Serum, Materials, 7, 2490 (2014). OPEN ACCESS

S. Hideshima, M. Kobayashi, T. Wada, S. Kuroiwa, T. Nakanishi, N. Sawamura, T. Asahi and T. Osaka*, A label-free electrical assay of fibrous amyloid β based on semiconductor biosensing, Chemical Communications, 50, 3476 (2014).

S. Hideshima, S. Wustoni, S. Kuroiwa, T. Nakanishi, A. Koike-Takeshita and T. Osaka*, Monitoring Amyloid Sup35NM Growth with Label-Free Electrical Detection Using a Field-Effect Transistor Biosensor, ChemElectroChem, 1, 51 (2014).

S. Hideshima, S. Kuroiwa, M. Kimura, S. Cheng and T. Osaka*, Effect of the size of receptor in allergy detection using field effect transistor biosensor, Electrochimica Acta, 110, 146 (2013).

S. Hideshima, H. Hinou, D. Ebihara, R. Sato, S. Kuroiwa, T. Nakanishi, S.-I. Nishimura and T. Osaka*, Attomolar Detection of Influenza A Virus Hemagglutinin Human H1 and Avian H5 Using Glycan-Blotted Field Effect Transistor Biosensor, Analytical Chemistry, 85, 5641 (2013).

D. Yamamoto, S. Hideshima, S. Kuroiwa, T. Nakanishi and T. Osaka*, Detection of Matrix Metalloproteinase-2 by Field Effect Transistor with a Fibronectin-immobilized Gate, Chemistry Letters, 41, 825 (2012).

S. Hideshima, R. Sato, S. Inoue, S. Kuroiwa and T. Osaka*, Detection of tumor marker in blood serum using antibody-modified field effect transistor with optimized BSA blocking, Sensors and Actuators B: Chemical, 161, 146 (2012).

逢坂哲彌, 黒岩繁樹, 秀島 翔, 中西卓也, 電界効果トランジスタを用いたマイクロセンサ－pHセンサからバイオセンサまで－, 化学センサ, 28, 8 (2012).

S. Hideshima, R. Sato, S. Kuroiwa and T. Osaka*, Fabrication of stable antibody-modified field effect transistors using electrical activation of Schiff base cross-linkages for tumor marker detection, Biosensors and Bioelectronics, 26, 2419 (2011).

S. Hideshima, T. Nakamura, S. Kuroiwa and T. Osaka, Relation between Effective Charge Numbers and Signals Caused by Protein Adsorption on Field Effect Transistor Detection, ECS Transactions, 35, 121 (2011).

T. Nakamura, Y. Sakurai, S. Hideshima, S. Kuroiwa and T. Osaka*, Sialylglycan-modified Field Effect Transistor for Detection of Charged Lectin under Physiological Conditions, Chemistry Letters, 39, 1245 (2010).

S. Hideshima, H. Einati, T. Nakamura, S. Kuroiwa, Y. Shacham-Diamand and T. Osaka, Theoretical Optimization Method of Buffer Ionic Concentration for Protein Detection Using Field Effect Transistors, Journal of The Electrochemical Society, 157, J410 (2010). Selected by the American Physical Society (APS) and the American Institute of Physics (AIP) as a paper in Virtual Journal of Biological Physics Research.

S. Hideshima, M. Yanagisawa, A. Arakaki, T. Matsunaga and T. Osaka*, Quantitative Detection of Immunoreaction using Magnetite Nanoparticles and Raman Scattering Spectroscopy, e-Journal of Surface Science and Nanotechnology, 6, 142 (2008).

A. Arakaki, S. Hideshima, T. Nakagawa, D. Niwa, T. Tanaka, T. Matsunaga and T. Osaka*, Detection of biomolecular interaction between biotin and streptavidin on a self-assembled monolayer using magnetic nanoparticles, Biotechnology and Bioengineering, 88, 543 (2004).