134. “Toward easy-to-use food sensor devices: a supramolecular approach”
For more information, please refer to here.
134. “Toward easy-to-use food sensor devices: a supramolecular approach”
For more information, please refer to here.
[D-6-05] An Extended-Gate-Type Organic Field-Effect Transistor Functionalized with a Dimercapto Thiadiazole Derivative for the Detection of Mercury(II) Ions at Picomolar Level
◯Shijun Shi1, Kohei Ohshiro1, Qi Zhou1, Hikaru Tanaka2, Akari Yamagami2, Kazutake Hagiya2, Tsuyoshi Minami1
(1. Inst. of Indus. Sci., Univ. of Tokyo (Japan), 2. TOYOBO Corp., Ltd. (Japan))
For more informationm please refer to here.
Title:“Introduction of “Chimie supramoléculaire” and Toward the realization of chemical sensors that can be used by anyone, anywhere”
133. ”Organic field-effect transistor-based chemical / biosensors” Institut Pierre-Gilles de Gennes, Paris, FRANCE, September 2022
For more information, please refer to here.
Title:“Toward the realization of chemical sensors that can be used by anyone, anywhere”
132.[TT.V.C.3, WS.V.1.3] “Real-sample analysis based on organic field-effect transistors”
Tsuyoshi Minami(Institute of Industrial Science, The University of Tokyo)
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2P129 Synthesis and Characterization of Self-assembled Cucurbituril Derivatives
◯Wei Tang1, Qi Zhou1, Isao Yoshikawa1, Hirohiko Houjou1,2, Tsuyoshi Minami1*
1Institute of Industrial Science, 2Environmental Science Center, The University of Tokyo
For more informationm please refer to here.
“Detection of Bisphosphonate Drugs Using Fluorescent Carboxamidoquinoline Derivatives”, proposed in the application for the Research Associate Research Fund, received The First Place Honor, Yayoi Award, IIS, The university of Tokyo, after a rigorous review process.
Congratulations!
131.”Organic transistor-based chemical / biosensors for accurate real-sample analysis“, LAAS, Toulouse, FRANCE, 2022年9月