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[P-82] A Graphene Oxide-Modified Extended-Gate-Type Organic Transistor for Glucose Detection in a Human Blood Sample
◯Haonan Fan1, Qi Zhou1, Yui Sasaki1, Tsuyoshi Minami1, Yuta Nishina2,3
1 Institute of Industrial Science, The University of Tokyo, Japan,
2 Research Core for Interdisciplinary Sciences, Okayama University, Japan, 3 Graduate School of Natural Science and Technology, Okayama University, JapanFor more information, please refer to here.
141. “Pattern Recognition-driven Chemical Sensing based on An Organic Transistor“
13th International Conference on Nano-Molecular Electronics (ICNME2022)
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140. “Organic Transistor-based Chemical Sensors”
2022 IEMN-LIMMS workshop, virtual event, December 2022
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“A novel ligand modification method based on iminoboronate ester formation to improve cell membrane permeability of non-viral gene carriers”
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[OS-33] “Printed Paper-Based Microtiter Chemosensor Arrays for On-site Analysis”
○ Xiaojun Lyu1, Yui Sasaki1,Tsuyoshi Minami1 (1 Institute of Industrial Science, The University of Tokyo)
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[A09]A Graphene Oxide-Modified Extended-Gate-Type Organic Transistor for Glucose Detection in a Human Blood Sample
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