Tsuyoshi Minami



■ Affiliation

Institute of Industrial Science, University of Tokyo Associate Professor, Department of Materials and Environment / The University of Tokyo Excellence Researcher

Major: Department of Chemistry and Biotechnology, Department of Advanced Interdisciplinary Engineering

LIMMS / CNRS-IIS IRL 2820 Host Faculty

The University of Tokyo Nano Quantum Information Electronics Research Organization

One Health One World Collaborative Research Organization

Synchrotron Radiation Collaborative Research Organization, The University of Tokyo(UTokyo-SRRO)

University of Technology of Compiègne (UTC) Visiting Professor

Yamagata University Visiting Professor

Tokyo Metropolitan University Visiting Associate Professor


■ Researcher Information


■ Contact
E-mail: tminami[at]iis.u-tokyo.ac.jp / Tel: +81-3-5452-6364 / Fax: +81-3-5452-6365


■ Education and Professional Experience

Tsuyoshi Minami was born in Saitama, Japan, in 1983. He received his BEng (2006) and MEng (2008) from Saitama University, he then obtained his PhD from Tokyo Metropolitan University, under the direction of Professor Yuji Kubo, in 2011. During his PhD studies he worked with Professor Tony D. James of University of Bath on collaborative projects. Between 2011 and 2013 he was a Postdoctoral Research Associate at Bowling Green State University, working with Associate Professor Pavel Anzenbacher, Jr. In 2013 he was appointed as Research Assistant Professor at the same University. Then he moved to Yamagata University  as an Assistant Professor in 2014. He was appointed as a Lecturer at The University of Tokyo in 2016, and then he has been an Associate Professor since 2019 at the same University. He is also Visiting Associate Professor at Yamagata University and Tokyo Metropolitan University since 2016. His interest in supramolecular analytical chemistry, self-assembled materials, gold nanoparticles and organic transistors for sensing applications.


■ Publications
Google Scholar Citations


■ Awards

Aug. 2023 ECS-IOP trusted reviewer status
(Electrochemical Society, Institute of Physics)

Mar. 2023 Outstanding Reviewer for Analyst 2022
(Royal Society of Chemistry)

Nov. 2022 IEEE CPMT Symposium Japan 2022 Best Paper Award
(IEEE Electronics Packaging Society)

Apr. 2022 ChemComm Pioneering Investigators 2022
(Royal Society of Chemistry)

Mar. 2022 Konica Minolta Imaging Science Encouragement Award
(Konica Minolta Science and Technology Foundation)

Nov. 2021 Rising Stars in Polymer Science 2021
(Polymer Journal)

Sep. 2021 Journal of Materials Chemistry C Emerging Investigators
(Royal Society of Chemistry)

June 2021 The Emerging Innovator Award in Analytical Chemistry 2021
(IUPAC)

April 2021 Nanoscale Emerging Investigators
(Royal Society of Chemistry)

Jan. 2021 Encouragement Award for the 30th Annual Meeting of Japan MRS
(Japan MRS)

Dec. 2020 Frontiers in Chemistry 2020 Outstanding Associate Editor Award
(Frontiers)

Sep. 2020 20th Japanese Photochemistry Association Encouragement Award
(Japanese Photochemistry Association)

June 2020 SHGSC Japan Award of Excellence 2020
(Host-Guest Supramolecular Chemistry Research Group)

May 2020 Polymer Research Encouragement Award
(The Society of Polymer Science, Japan)

April 2020 Commendation for Young Scientists by the Minister of Education, Culture, Sports, Science and Technology
(Ministry of Education, Culture, Sports, Science and Technology)

Mar. 2020 The 69th Chemical Society of Japan for Young Chemists
(The Chemical Society of Japan)

September 2019 Publons Top Peer Reviewer 2019 for placing in the top 1% of reviewers in the Cross-Field
(Publons)

September 2019 Publons Top Peer Reviewer 2019 for placing in the top 1% of reviewers in Chemistry
(Publons)

September 2019 Polymer Society Publicity Committee Publicity Award
(Society of Polymer Science)

September 2019 17th Organic Molecules and Bioelectronics Section Encouragement Award
(Applied Physics Society of Japan Organic Molecules and Bioelectronics Section)

June 2019 Top Downloaded article published in ChemistryOpen during 2017-2018
(John Wiley & Sons Pte Ltd)

January 2019 13th Wakashichi Encouragement Award
(Aichi, Japan)

September 2018 Publons Top Peer Reviewer 2018 for placing in the top 1% of reviewers in Chemistry
(Publons)

August 2018 Krita Water and Environmental Sciences Research Excellence Award
(Krita Foundation for Water and Environmental Sciences)

July 2018 Young Scientist Lecture Award
(Kansai Branch, Society of Polymer Science, Japan)

June 2018 RSC ChemComm Emerging Investigators 2018
(Royal Society of Chemistry)

March 2018 The Electrochemical Society of Japan Advancement Award (Sano Award)
(The Electrochemical Society of Japan)

September 2017 Japan Society for Analytical Chemistry Encouragement Award
(Japan Society for Analytical Chemistry)

June 2017 Hiro Ando Memorial Academic Encouragement Award
(Ando Institute)

June 2017 6th New Chemical Technology Research Encouragement Award
(Japan Association for the Promotion of New Chemical Technology)

May 2017 The Society of Chemistry and Micro/Nano Systems Young Scientist Excellence Award
(The Society of Chemistry and Micro/Nano Systems)

April 2017 Best Presentation Award (Academic), 97th Spring Meeting
(The Chemical Society of Japan)

Jan. 2017 The Japan Society for Analytical Chemistry Kanto Branch New Century Newcomer Award
(The Japan Society for Analytical Chemistry)

September 2016 Encouragement Award for Presentation at the 40th Annual Meeting of the Japan Society of Applied Physics
(Japan Society of Applied Physics)

April 2016 New Wave in Polymer Science and Engineering -2016-
(The Society of Polymer Science, Japan)

March 2016 Special Lecture on Young Generation
(The Chemical Society of Japan, 96th Spring Meeting)

February 2016 Association for Synthetic Organic Chemistry Research Planning Award (ADEKA)
(The Society of Synthetic Organic Chemistry)

October 2015 ICFPE 2015 Outstanding Paper Award
(6th International Conference on Flexible Printed Electronics)

July 2015 Analytical Sciences Hot Article Award
(Analytical Sciences in the July issue)

April 2015 Ube Industries Academic Foundation 55th Academic Encouragement Award
(Ube Industries Academic Foundation)

March 2015 TANAKA Holdings Gold Award
(TANAKA Holdings 16th Research Grant for Precious Metals)


■ Affiliated Academic Societies

Chemistry Electrical/Electronic/Information/Physics Integrated science
Division of Biofunctional Chemistry, The Chemical Society of Japan Institute of Electrical and Electronics Engineers American Association for the Advancement of Science
Royal Society of Chemistry Japan Society of Applied Physics The Society for Chemistry and Micro-Nano Systems
American Chemical Society Institute of Electronics, Information and Communication Engineers The Japan Society of Drug Delivery System
The Society of Synthetic Organic Chemistry, Japan Society of Computer Chemistry, Japan The Fullerenes, Nanotubes and Graphene Research Society
The Society of Physical Organic Chemistry, Japan
The Society of Polymer Science, Japan
The Japan Society for Analytical Chemistry
The Electrochemical Society of Japan
Association of Research for Host-Guest and Supramolecular Chemistry
Forum on Biomolecular Chemistry
The Electrochemical Society


■ Grants

・Kakenhi Fundamental research(B)(Represantative, 2024–2027)

・Kakenhi Research Project on the Area of Scientific Innovation (B) (Represantative, 2023-2026)

・Young Researcher Grant, Kanto Branch, Denki Kagakkai (2022)

・Kakenhi New Academic Area of Research (Research Area Proposal Type) (2022-2023)

・Kurita Water and Environment Foundation Network Construction Grant (2021-2024)

・Kakenhi Challenging Research (Development) (Sharing, 2021-2024)

・R & D-type startup support project / NEDO Entrepreneurs Program (NEP) (2021)

・Grant-in-Aid for Scientific Research (B) (Representative, 2021–2024)

・Mitsubishi Materials open call for participants type industry-academia joint research (Representative, 2021-2024)

・JST Plan B (Representative, 2021-2022)

・JST International Emergency Joint Research and Research Support Program (Representative, 2021)

・JST Strategic Creative Research Promotion Project (CREST) ​​ (Principal Collaborator, 2020-2025)

・Kakenhi Challenging Research (Sprouting) (Representative, 2020–2021)

・Grant-in-Aid for Scientific Research New Academic Area Research (Research Area Proposal Type) (Representative, 2020–2022)

・Japan Society for the Promotion of Science 2018 Bilateral Exchange Program (Joint Research) (Representative of Japan, 2018–2020)

・Grant-in-Aid for Scientific Research (B) (Sharing, 2019–2021)

・Grant-in-Aid for Young Scientists (A) (Representative, 2017–2019)

・Kakenhi Challenging Research (Sprouting) (Sharing, 2017–2019)

・Grant-in-Aid for Scientific Research Start Support (Representative, 2014–2016)

・French Embassy Explorations France 2018

・FY2018 TIA Collaborative Program Exploratory Promotion Project (Kakehashi)(Collaborative Researcher)

・FY2017 FY2017 TIA Collaborative Program Exploratory Promotion Project (Kakehashi) (Collaborating Researchers)

・Ion Engineering Foundation Research Grant

・Futaba Memorial Electronic Foundation Natural Science Research Grant

・The Electrochemical Society of Japan, Chemical Sensor Research Group, Ikareyama International Foundation Grant

・NOGUCHI INSTITUTE Research Grant

・New Chemical Technology Promotion Association 6th New Chemical Technology Research Encouragement Award

・Ishimoto Memorial Foundation for the Promotion of Sports Science

・Tateishi Foundation for the Promotion of Science and Technology Research Grant

・Izumi Foundation for the Promotion of Science and Technology Research Grant

・Hattori Hokokai Engineering Research Encouragement Grant

・Ube Industries Science Foundation 55th Academic Encouragement Award

・Kato Science Foundation The Kato Foundation for the Promotion of Science Research Grant

・The Ikeya Foundation for the Advancement of Science and Technology Research Grant

・The Kurita Foundation for Water and Environmental Sciences Research Grant

・The Maki Tobe Foundation Research Grant
・Japan Chemical Research Association, 2014 Chemical Research Grant

・Yamagata University Research Institute, 2014 Research Grant through Yonezawa City Research Encouragement

・Yamagata University Research Institute, 2014 Ando Research Institute Ando Memorial Academic Encouragement Award

・Towa Food Research Promotion Foundation Academic Encouragement Grant for FY 2009

・Kanamori Foundation Research Grant for FY 2009

・CERI Public Research Grant

・Hatakei Foundation General Grant 2014

・Umami Research Association Research Grant

・Tanaka Kikinzoku Group “Research grant related to precious metals”

■ Invited Lectures

175. “Organic FET-based Chemical Sensors”, Sensor Malaysia, Online, March 2024

174. “The Past, Present, and Future of Chemical Sensors”, The 11th Research Seminar of Corporate Sponsored Research Programs “Co-designing Future Engineering”, Online, March 2024

173. “Can supramolecular materials really be used as chemical sensors?”, JST PRESTO The 2nd Workshop on Future Materials, Kyoto University, Kyoto, March 2024

172. “Organic transistor-based chemical sensors for real-sample analysis”, PHENIX Seminar, Sorbonne University, Online, February 2024

171. “Organic transistor-based chemical sensors for real-sample analysis”, Natural Science & Mathematics Colloquium Series 2023-2024, Colgate University, Hamilton, USA, February 2024

170. “π-Conjugated polymer-based chemical sensors”, SPIE Photonics West 2024, Moscone Center, San Francisco, USA, January 2024

169. “Supramolecular sensor devices based on organic transistors”, The Organic Seminar Series, Department of Chemistry, College of Natural Sciences, The University of Texas at Austin, Austin, USA, January 2024

168. “Development of self-assembled chemosensors and their array chips for on-site analysis ”, New century award lecture, the Kanto Branch of the Japan Society for Analytical Chemistry, Otemachi Nomura Building, Tokyo, January 2024

167. “Organic transistor-based chemical sensors based on supramolecular chemistry”, Forum on Molecular Science and Health, East China Normal University, Shanghai, China, December 2023

166. “Comprehensive detection of taste components using pattern recognition”, Konica Minolta Science and Technology Foundation, 30th Anniversary Presentation of the Imaging Science Incentive Award, Tokyo Tama-Mirai-Messe, Tokyo, November 2023

165. “What is sensing?” Lunchtime petit talk, Venue: Shokudo Komani, Tokyo, Nov 28, 2023

164. “Development of Supramolecular Sensor Devices for Real-Sample Analysis“, the Faculty of Advanced Technology and Multidiscipline, Universitas Airlangga. Online, November 2023

163. “Organic FET-based Chemical Sensors”, Joint Workshop on Innovative Micro/Nano SystemsSNU BK21 GoGE/SDG Program International Workshop, Korea, November 2023

162. “Chemical sensors based on organic field-effect transistors“, International Workshop on Micro- and Nano-Technologies for Energy, Bio-engineering and Biosensing with JETMeE Workshop LIMMS/CNRS-IIS, IEMN-CNRS & Partners, Online, October 2023

161. “Chemical sensors based on organic field-effect transistors for real-sample analysis“, Japan-France-Korea Workshop on Emerging Biomedical Science and Technology at the Nanoscale 2023, Institute of Industrial Science, University of Tokyo, Tokyo, October 2023

160. “Simple Methods to Read Out Molecular Information Even in the Presence of Interferents“, The 17th Summer School, Ferroic-ordering and their manipulation, Reference Canal City Hakata, Fukuoka, September 2023

159. “Chemical Sensing Based on Organic Transistors“, the 84th JSAP Autumn Meeting 2023, Kumamoto-jo Hall, Kumamoto, September 2023

158. “Paper-based optical chemosensor arrays“, RSC Tokyo International Conference 2023, Makuhari Messe, Chiba, September 2023

157. “Development of Supramolecular Sensor Devices for Real-Sample Analysis“, Tongji University, Shanghai, China, August 2023

156. “Development of Supramolecular Sensor Devices for Real-Sample Analysis“, East China Normal University, Shanghai, China, August 2023

155. “Supramolecular chemosensors for real-sample analysis“, Guilin University of Technology, Guilin, China, August 2023

154. “Development of Supramolecular Sensor Devices for Real-Sample Analysis“, Tsinghua University, Beijing, China, August 2023

153. “Development of organic transistor-based bio/chemical sensors for real-sample analysis“, International Meeting on Chemical Sensors (IMCS 2023), Changchun, China, August 2023

152. “Supramolecular chemosensor arrays for real-sample analysis“, AsiaSense 2023, Bali, Indonesia, August 2023

151. “π-Conjugated polymer-based chemical sensors“, National Taiwan University, Taipei, Taiwan, July 2023

150. “Supramolecular optical sensors and their devices toward on-site analysis“, National Taiwan Ocean University, Online, July 2023

149. “Identifying molecules and ions” The University of Tokyo, Institute of Industrial Science, Office for Next Generation Education, Tottori Higashi Senior High School, Tottori, July 2023

148. “Toward the realization of chemical sensors that can be used by anyone, anywhere“, Bar-Ilan University, Ramat Gan, Israel, April 2023

147. “Organic Transistor-based Chemical Sensors with Artificial Receptors“, J.S.Fossey Memorial Symposium, Birmingham, England, March 2023

146. “Non-enzymatic glucose detection utilizing an organic transistor functionalized with an artificial receptor“, 7th edition of the biennial International Conference on Nanoscience and Nanotechnology-2023 (ICONN -2023), India(online), March 2023

145. “Creation of organic transistor-based chemical sensors“, Noguchi Shitagau Research Grant Lecture, Tokyo(online), March 2023

144. “Solid-state optical chemosensor array devices for real-sample analysis“, SPIE Photonics West, San Francisco, USA, January 2023

143. “Supramolecular sensor devices for real-sample analysis“, Bowling Green State University Special seminar, Bowling Green, USA, January 2023

142. “Design of Organic Transistor-based Bio/Chemical Sensors for Real-sample Analysis” International E-Symposium On Materials Development And Scale- Up For Membrane Separation, Sensing, Energy And Biological Applications (MDS-MSEB)-2023, online, January 2023

141. “Pattern Recognition-driven Chemical Sensing based on An Organic Transistor“, 13th International Conference on Nano-Molecular Electronics (ICNME2022), Tokyo, December 2022

140. “Organic Transistor-based Chemical Sensors“, 2022 IEMN-LIMMS Workshop, Online, December 2022

139. “On-Site Chemical Sensing“, SEKISUI WORKSHOP Inspire Talk, Tokyo, December 2022

138. “Chemical sensors based on organic field-effect transistors for real-sample analysis“, 11th IEEE CPMT Symposium Japan (ICSJ2022), Kyoto, November 2022

137. “Organic Thin-film transister-based Chemical Sensors Toward Real-sample Analysis “, CECNet2022, Online, November 2022

136. “Towards easy-to-use chemical sensor devices: a supramolecular approach“, Science Institute of Vine and Wine Online Seminar Online Seminar, Online, October 2022

135. “Supramolecular chemical sensing using pattern recognition” The 100th Anniversary and 74th Annual Meeting of the Society for Biotechnology, Japan (SBJ), Online, October 2022

134. “Toward easy-to-use food sensor devices: a supramolecular approach” Science Institute of Vine and Wine Seminar, Villenave-d’Ornon, FRANCE, September 2022

133. “Organic field-effect transistor-based chemical / biosensors” Institut Pierre-Gilles de Gennes Seminar, Paris, FRANCE, September 2022

132. “Real-sample analysis based on organic field-effect transistors” NanoInnovation2022, Rome, ITALY, September 2022

131. “Organic transistor-based chemical / biosensors for accurate real-sample analysis” LAAS Seminar, Toulouse, FRANCE, September 2022

130. “Zero-organic synthesis oriented analytical reagents and their application to sensor array chips” The 71st Annual Meeting of the Japan Society for Analytical Chemistry, Okayama University, Okayama, September 2022

129. “Supramolecular Chemical Sensor Devices for Real-Sample Analysis” Super-global network on Seoul National Univ.(SNU)/ IIS, The Univ. of Tokyo, Joint Workshop on Innovative Micro/Nano systems, Seoul, Korea, August 2022

128. “Toward the realization of chemical sensors that can be used by anyone, anywhere” 1st Joint Student Seminar between the Univ. of Tokyo and Univ. of Dhaka, Online, August 2022

127. “Organic transistor-based chemical sensors with host-guest chemistry” 7th International Conference on Molecular Sensors & Logic Gates, Dublin, Ireland, July 2022

126. “Smart sensors axis” International Workshop on Micro- and Nano-Technologies for Energy, Bio-engineering and Bio-sensing with JETMeE Workshop, Online, June 2022

125. “Design of Supramolecular Sensors and Their Applications to Optical Chips and Organic Devices” Meeting BIoMEG, LIMMS & University of Bordeaux & CNRS & IIS, U Tokyo, Online, May 2022

124. “Development of an oxytocin sensor oriented towards the improvement of maternal and child health” 82nd Annual Meeting of the Society of Analytical Chemistry, Ibaraki University, Ibaraki, May 2022

123. “Aiming to realize a chemical sensor that anyone can easily measure on the spot” 2nd OHOW Public Lecture, Online, April 2022

122. “Supramolecular Chemistry Sensor Chip / Device-based Actual Sample Analysis” The 102nd Annual Meeting of the Chemical Society of Japan (2022), Online, March 2022

121. “Organic transistor-based chemical/biosensor for real sample analysis” Japan Society for the Promotion of Science, Committee 174 on Molecular Nanotechnology, 72nd Meeting, Online, January 2022

120. “Supramolecular chemosensor arrays utilizing fluorescence and colorimetry” Colloquium, Research Center for Nanoscience of Photonic Materials, Institute of Industrial and Science, the University of Tokyo, Tokyo & Online, January 2022

119. “Water-gated organic transistors for chemical sensing application” Pacifichem 2021, Online, December 2021

118. “Extended gate-type organic field-effect transistors as chemical sensing platforms” Pacifichem 2021, Online, December 2021

117. “Supramolecular Analytical Devices: Organic Transistor-based Chemical Sensors with Molecular Recognition Materials” The 31st Annual Meeting of MRS-J, Online, December 2021

116. “Self-Assembled Supramolecular Sensor Arrays” 2nd Virtual International Conference on Chemical Sciences in Sustainable Technology and Development (IC2S2TD-2021), Online, November 2021

115. “Chemical Sensors Based on Water-Gated Organic Thin-Film Transistors” 11th International Conference on Electronics, Communications and Networks (CECNet2021), Online, November 2021

114. “Development of chemical sensors for on-site detection” Future Technologies from HIMEJI, Online, November 2021

113. “Identifying molecules and ions” The University of Tokyo, Institute of Industrial Science, Office for Next Generation Education, Saitama Prefectural Urawa Daiichi Girls High School, Saitama, October 2021

112. “Development of Supramolecular Sensors using Host-Guest Interactions and Their Applications to Optical Array Chips” Annual Meeting on Photochemistry 2021, Online, September 2021

111. “Supramolecular Analytical Devices: Toward On-site Analysis in Real-world Scenarious” IUPAC WORLD CHEMISTRY CONGRESS 2021 VIRTUAL, Online, August 2021

110. “Organic thin-film transistor-based chemical sensors functionalized with artificial receptors” IEEE NANO 2021, Online, July 2021.

109. “Materials Design and Practice for Chemical Sensing with Pattern Recognition” 4th Sensors & IoT Seminar, Online, June 2021.

108. “Organic transistor-based chemical sensors utilizing self-assembled monolayers” 18th Symposium on Host-Guest and Supramolecular Chemistry, Online, June 2021

107. “Fabrication of Chemical Sensor Devices Using Office Products and Simultaneous Multi-Component Detection Based on Pattern Recognition” Image Sensing Exhibition 2021, Pacifico Yokohama, Online, June 2021

106. “Design and Development of a Sensor Capable of Analyzing Multi-Component Mixed Chemical Information” 81st Annual Conference on Analytical Chemistry 2021, Online, May 2021

105. “Organic transistors for chemical sensing applications
Workshop IIS – MESA+, University of Twente, MESA+ Institute, Online, March 2021

104. “Supramolecular Chemosensors and Their Arrays
International Webinar on Advances in Environmental and Chemical Sciences, Online, March 2021

103. “Paper-Based Sensor Devices for Rapid and Accurate Detection of COVID-19
JST in 2021: Core Activities, Online, February 2021

102. “Self-Assembled Chemosensor Arrays
5th International Conference on Recent Advances in Material Chemistry (ICRAMC -2021), Online, February 2021

101. “Interdisciplinary research of organic transistors: microfluidics, molecular recognition chemistry, and chemical sensing
6th International Conference on Recent Advances in Material Chemistry (ICRAMC -2021), Online, February 2021

100. “Chemical Sensing in Aqueous Media by Organic TFTs
The 66th IEDM Conference 2020, Online, December 2020

99. “Development of Chemical Sensors Based on Polymer Thin-Film Transistors
3rd GLowing Polymer Symposium in KANTO (GPS-K 2020), Online, November 2020

98. “Development of Paper Substrate Sensor Device for Rapid and Accurate COVID-19 Detection
JST President’s Press Briefing, Tokyo, November 2020

97. “Organic Field Effect Transistor Type Biosensor and Chemical Sensor
Nagoya University First Electronics Seminar “Development and Future Prospects of Bioelectronics”, Online, November 2020

96. “Extended Gate-Type Organic Thin-Film Transistors as Chemical Sensing Platforms for Healthcare Applications
The Society of Polymer Science, Japan. The 10th International Conference on Electronics, Communications and Networks (CECNet2020), Online, October 2020

95. “Molecular Recognition by Organic Transistors Functioning in the Hydrosphere
The Chemical Society of Japan 10th CSJ Chemistry Festa 2020, Online, October 2020

94. “Emerging-electronics innovation for SDGs -Toward synergy among young researchers-
Tsukuba Global Science Week 2020 , University of Tsukuba, Online, September 2020

93. “Chemical sensors using organic transistors as a platform
FIoT Consortium 1st Workshop, National Institute of Advanced Industrial Science and Technology, Tokyo & Online, July 2020

92. “High-throughput Analysis based on Supramolecular Sensor Arrays
Recent Advances in Materials Science and Technology , SRM Institute of Science & Technology, Online, June 2020

91. “Design of Supramolecular Sensors and Their Application to Optical Chips and Organic Devices
The Chemical Society of Japan 100th Spring Meeting, Tokyo University of Science, March 2020

90. “Development of Supramolecular Sensor Chips and Devices
The Society of Polymer Science, Japan Society for Supramolecular Research, Chuo University, Korakuen Campus, Tokyo, January 2020

89. “Chemical Sensing Based on Organic Transistors
Seoul National Univ. (SNU) / IIS, The Univ. of Tokyo Joint Workshop on Innovative Micro/Nano systems, Seoul National University, Seoul, Korea, January 2020

88. “Self-Assembled Chemosensor Arrays
2019 International Conference for Leading and Young Medical Scientists (IC-LYMS 2019), GIS TAIPEI TECH Convention Center, Taipei, Taiwan, December 2019

87. “Electrical Detection of Glyphosate by an Electrolyte-gated Organic Transistor
Bio4Apps2019, Kagoshima University Inamori Hall, Kagoshima, December 2019

86. “Supramolecular Sensors for the Detection of Carcinogen

SMMiL-E Workshop on BioMEMS for Cancer, University of Lille, Lille, France, December 2019

85. “Design of Supramolecular Sensors and Their Applications to Optical Chips and Organic Devices
Workshop IIS – U Bordeaux, University of Bordeaux, Talence Campus, Talence, France, December 2019

84.”Supramolecular Sensors
Carbometrics Ltd, Unit DX, Tampa, USA, December 2019

83. “Organic TFT-based Biosensors Functionalized with Artificial Receptors
IDW (International Display Workshop)’19, Sapporo Convention Center, Hokkaido, November 2019

82. “Simultaneous Multi-Component Detection Using Pattern Recognition and Machine Learning
Organic Molecules and Bioelectronics Section Workshop, Institute of Industrial Science, University of Tokyo, Tokyo, November 2019

81. “Molecular Self-Assembled Supramolecular Sensor Arrays for Environmental and Biochemical Application
3rd Asian Conference on Chemosensors & Imaging Probes, Punjab, India, November 2019

80. “Supramolecular Sensors: Exploratory Research toward Practical Applications in Molecular Sensors
SRM Institute of Science and Technology, Chennai, India, November 2019

79. “Glucose Sensing in Microfluidic Devices
20 Years of Microfluidics Between France and Japan, Institut Pierre-Gilles de Gennes, Paris, France, October 2019

78. “Organic transistor based biosensors
UTC iLite LIMMS workshop, University of Technology of Compiègne, Compiègne, France, October 2019

77. “Organic transistor based biosensors
UTC iLite LIMMS workshop, Centre Hepato Biliare, Villejuif, France, October 2019

76. “Simultaneous multi-component analysis using supramolecular sensor arrays and chemometrics
9th CSJ Chemistry Festa 2019, Tower Hall Funabori, Tokyo, October 2019

75. “Organic transistor-based chemical Sensors
Workshop IIS – MESA+, University of Twente, MESA+ Institute, Enschede, Netherlands, October 2019

74. “Organic transistor-based chemical sensors based on molecular recognition chemistry
80th Autumn Meeting of the Japan Society of Applied Physics, Hokkaido University, Sapporo Campus, Hokkaido, September 2019

73. “Drug Detection Based on Supramolecular Sensors
32nd Symposium on Biomedical Analytical Sciences, Musashino University, Musashino Campus, Tokyo, August 2019

72. “Organic Transistor Chemical Sensor Based on Molecular Recognition Chemistry
JACI Japan Association for the Promotion of New Chemistry and Technology (JACI), Electronic Information Technology Section, Next Generation Electronics Subcommittee Meeting, Sanbancho KS Building, Tokyo, August 2019

71. “Genesis of Sensors Based on Supramolecular Chemistry
Kanto Society of Polymer Science and Technology Summer Camp 2019, Namikaze Tateyama, Chiba, August 2019

70. “Development of Glyphosate Sensors
Workshop on Advanced Materials and Devices, East China Normal University, Shanghai, China, July 2019

69. “Towards Practical Applications of Molecular Recognition Materials
ADEKA Lecture, Jiangbi Hall, Tokyo, July 2019

68. “Designing “I like this, I wish I could do this”
Design Academy Inspire Talk, THE CORE KITCHEN/SPACE, Tokyo, June 2019

67. “Supramolecular Chemosensor Arrays
College of Materials Science and Engineering, Guilin University of Technology, Guilin, China, May 2019

66. “Organic Transistors with Molecular Recognition Capabilities
1st PE Workshop, Toppan Forms Headquarters, Tokyo, April 2019

65. “Organic Transistor-based Biosensors
Institute of Applied Chemistry, National Taiwan University of Science and Technology, Taipei, Taiwan, March 2019

64. “Supramolecular Chemical Sensors
Institute of Medical Engineering, National Yang-Ming University, Taipei, Taiwan, March 2019

63. “Supramolecular Chemosensors
Polymer Research Institute, National Taiwan University, Taipei, Taiwan, March 2019

62. “Organic Transistors with Molecular Recognition Ability
Research Exchange Meeting, Institute of Industrial Science, Osaka University and Institute of Industrial Science, University of Tokyo, Tokyo, March 2019

61. “Development of sensor chips and devices based on supramolecular analytical chemistry
81st Macromolecular Chemistry Seminar, Ritsumeikan University, Shiga, February 2019

60. “Organic Transistor-based Biosensors
SMMiL-E Seminar, Institut pour la Recherche sur le Cancer de Lille, Lille, France, December 2018

59. “Organic Transistor-based Biosensors
Université de technologie de Compiègne, Compiègne, France, November 2018

58. “Organic transistor-based biosensors toward healthcare applications
Département Hospitalo-Universitaire Hepatinov, Paris, France, November 2018

57. “Supramolecular-Material Based Sensors
Institut des Sciences Chimiques de Rennes, Rennes, France, November 2018

56. “Development of Organic Thin-Film Transistor-Based Chemical Sensors that Can Contribute to the IoT Society
Tokyo City University Salon, Tokyo City University, Tokyo, November 2018

55. “Development of sensor devices and chips based on supramolecular analytical chemistry
M&BE Workshop, Institute of Industrial Science, University of Tokyo, Tokyo, November 2018

54. “Fundamental Research of Biosensors Based on Organic Transistors with Self-Assembled Monolayer-Functionalized Electrodes strong>”
Department of Chemistry and Molecular Engineering, East China Normal University, Shanghai, China, November 2018

53. “Supramolecular Material-based Sensors
College of Materials Science and Engineering, Guilin University of Technology, Guilin, China, October 2018

52. “Supramolecular Material-based Chemical Sensors
College of Chemical and Molecular Engineering, East China Normal University, Shanghai, China, October 2018

51. “Development of Sensor Devices and Chips Based on Molecular Recognition Chemistry
Sensors & IoT Consortium Lecture, Sekisui Chemical Tokyo Headquarters, Tokyo, September 2018

50. “Electrical Detection of Bio-Related Substances Using Organic Transistors
M&BE New Field Development Study Group, NHK Broadcasting Technology Research Institute, Tokyo, September 2018

49. “Construction of optical chemosensor arrays using polythiophenes
67th Macromolecules Conference, Hokkaido University, Sapporo Campus, Hokkaido, September 2018

48. “Design and fabrication of polymer transistor-based chemical sensors and evaluation of their sensing capability
64th Macromolecules Research Conference (Kobe), Hyogo Prefectural Hall, Hyogo, July 2018

47. “Molecular Self-Assembled Supramolecular Sensor Arrays
Collaborative Conference on Materials Research 2018, Songdo Convensia, Incheon, Korea, June 2018

46. “Organic transistor based chemical sensors
Joint French Japanese technology and bioengineering against liver disorders, Institute of Industrial Science, University of Tokyo, Tokyo, June 2018

45. “Development of sensor devices and chips based on supramolecular analytical chemistry
18th Macromolecular Chemistry Seminar, Komaba I Campus, The University of Tokyo, Tokyo, April 2018

44. “Molecular Self-assembled Colorimetric Chemosensor Arrays
The 98th Spring Meeting of the Chemical Society of Japan, Funabashi Campus, Faculty of Science and Engineering, Nihon University, Chiba, March 2018

43. “Biosensing Using Organic Thin Film Transistors
The 98th Spring Meeting of the Chemical Society of Japan, Funabashi Campus, Faculty of Science and Technology, Nihon University, Chiba, March 2018

42. “Organic thin-film transistor-based chemical sensor with molecular recognition capability
The 85th Annual Meeting of the Electrochemical Society of Japan, Tokyo University of Science, Katsushika Campus, Tokyo, March 2018

41. “Development of organic thin-film transistor-based chemical sensor utilizing gold electrodes
79th Special Joint Symposium on Rare Metals, Institute of Industrial Science, University of Tokyo, Tokyo, January 2018

40. “Reading molecular recognition information using organic thin-film transistors
The 20th Meeting on Life Chemistry, organized by the Frontier Life Chemistry Research Group of the Chemical Society of Japan, Hakoneji Kaigun, Kanagawa, January 2018

39. “Label-Free and Antibody-Free Protein Detection Based on Organic TFTs
The 24th International Display Workshops, Sendai International Center, Miyagi, December 2017

38. “Supramolecular Chemical Sensors
Frontiers in materials, sensors and devices for humanophilic innovation, Nara Institute of Science and Technology, Nara, November 2017

37. “Supramolecular Sensors for Addictive Durugs
The Symposium on Biosensing and Bioimaging for Neuroscience (SBBN) 2017, East China Normal University, Shanghai, China, November 2017

36. “A chemical sensor based on an organic thin-film transistor for label-free detection of proteins
17th Asia-Pacific International Symposium on Microscale Separations and Analysis, Songjiang New Century Grand Hotel, Shanghai, China, November 2017

35. “Development of organic transistors for chemical sensors
78th Meeting of the Japan Society for the Promotion of Science, Committee 142, Section C, Tokyo University of Science, PORTA, Kagurazaka, Tokyo, November 2017

34. “Frontiers of Supramolecular Chemistry
Course requested by Next Generation Development Office, Institute of Industrial Science, University of Tokyo, Ibaraki Junior and Senior High School, Ibaraki, November 2017

33. “Why Study?
Lecture for Working People, Saitama Prefectural Warabi High School, Saitama, October 2017

32. “Molecular self-assembled colorimetric chemosensor arrays
The 3rd International Workshop on Chromogenic Materials and Devices , Tokyo Metropolitan University, Akihabara Satellite Campus, Tokyo, September 2017

31. “Chemical sensors and biosensors using organic thin-film transistors
Japan Society for the Promotion of Science, Committee 174 on Molecular Nanotechnology, 59th Meeting, Campus Plaza Kyoto, Kyoto, September 2017

30. “Examination of detection of substances in saliva using organic thin-film transistors
The 66th Annual Meeting of the Japanese Society for Analytical Chemistry, Tokyo University of Science, Katsushika Campus, Tokyo, September 2017

29. “Development of optical and electrochemical sensor devices with molecular recognition capability
The 66th Annual Meeting of the Japanese Society for Analytical Chemistry, Tokyo University of Science, Katsushika Campus, Tokyo, September 2017

28. “Can supramolecular materials commit to the development of analytical chemistry
The Japan Society for Analytical Chemistry, 2009 Kanto Branch Young Scientists Meeting, Hotel New Shiobara, Tochigi, July 2017

27. “Development of Chemical Sensor Devices Using Organic Thin Film Transistors
The 35th Meeting of the Society for Chemistry and Micro/Nano Systems, Tokyo Institute of Technology, Ookayama Campus, Tokyo, May 2017

26. “Development of sensor devices and chips based on supramolecular analytical chemistry
Kanto Branch, The Japan Society for Analytical Chemistry, Akihabara Daibiru, Tokyo, January 2017

25. “Applied Supramolecular Chemistry : Exploratory Research Toward Practical Applications in Molecular Sensors
East China Normal University School of Chemistry and Molecular Engineering, Shanghai, China, December 2016

24. “Development of Organic Transistor Chemical Sensors Based on Molecular Recognition Chemistry
213th Center for Future Chemistry Seminar, Kyushu University, Center for Advanced Organic Photonics and Electronics Research, Fukuoka, November 2016

23. “Applied Supramolecular Chemistry : Exploratory Research Toward Practical Applications in Molecular Sensors
The NTU -UT Joint Conference, National Taiwan University, Taipei, Taiwan, November 2016

22. “Latest Development Trends in Sensing of Biomaterials by Supramolecular Devices
The Next Generation Biotechnology and Medical Technology Workshop, Institute of Industrial Science, University of Tokyo, Tokyo, October 2016

21. “Latest Development Trends of Organic Transistor Chemical Sensors
Japan Association of Inorganic Chemicals, Iron and Steel Hall, Tokyo, September 2016

20. “Organic Field-Effect Transistors: An Attractive Platform for Chemical Sensing Applications

65th Annual Meeting of the Japanese Society for Analytical Chemistry, Hokkaido University, Hokkaido, September 2016

19. “Printed Dual-Gate Organic Transistors for Biosensor Applications
77th Annual Fall Meeting of the Japan Society of Applied Physics, Toki Messe, Niigata, September 2016

18. “Organic transistors: a new chemical sensor brought about by the fusion of molecular recognition chemistry and electronic device engineering
JSPS Industry-University Cooperative Research Committee, “Committee 151 on Advanced Nanodevices and Materials Technology. Meeting,” RIKEN, Saitama, September 2016

17. “Development of organic transistor-based chemical sensor with molecular recognition capability
The 1st Special Research Committee of the Incentive Committee organized by Bio-Micro-Nano Technology Research Group, Institute of Industrial Science, University of Tokyo, Tokyo, July 2016.

16. “Fusion Research of Organic Transistors and Molecular Recognition Chemistry: Development of Organic Transistor Chemical Sensors
DIC Corporation, Research Institute of Advanced Industrial Science and Technology, Chiba, July 2016

15. “Construction of organic transistor-based chemical sensor with molecular recognition capability
Graduate School of Materials Science, Nara Institute of Science and Technology, Nara, June 2016

14. “Development of Chemical Sensors based on Organic Thin Film Transistors Functionalized with Molecular Recognition Materials
ERATO SEMINAR, Hongo Campus, University of Tokyo, Tokyo, May 2016

13. “Development of Chemical Sensors based on Organic Thin Film Transistors Functionalized with Molecular Recognition Materials Materials
96th Spring Meeting of the Chemical Society of Japan, Special Lecture for Young Generation, Doshisha University, Kyotanabe Campus, Kyoto, March 2016

12. “Pioneering Research on Organic Transistors: Application to Chemical Sensors and Biosensors
Lecture at the Next Generation Electronics Subcommittee, Electronics and Information Technology Group, New Chemical Technology Promotion Association, Sanbancho KS Building, Tokyo, March 2016

11. “Future prospects of organic transistor-based sensors and introduction of cutting-edge research
Organic Electronics Related Technology Lecture, Organic Electronics Innovation Center, Yamagata University, Yamagata, October 2015

10. “Pioneering the application of organic transistors: application to chemical and biosensing
Organic Electronics Materials Research Group, 212th Research Meeting “Young Researchers to Watch”, Shinjuku NS Building, Tokyo, September 2015.

9. “Development of a simple food control method using histamine-responsive organic thin-film transistors
Tobe Maki Foundation Exchange Meeting, Tokushima Granvirio Hotel, Tokushima, September 2015

8. “Development of organic transistor-based biosensor using gold gate electrode
Tanaka Holdings Gold Award Commemorative Lecture, Industry Club of Japan, Tokyo, August 2015

7. “Exploratory Research on Sensor Devices Using Organic Transistors
Ube Industries, Organic Chemistry Laboratory, Yamaguchi, June 2015

6. “Development of sensor devices based on organic transistors
Renesas Semiconductor Packaging & Test Solutions, Yonezawa Plant, Yamagata, May 2015

5. “Development of sensing devices based on organic transistors
Organic Electronics Related Technology Course, Organic Electronics Innovation Center, Yamagata University, Yamagata, February 2015

4. “Basic Research on Biosensors and Chemical Sensors Based on Organic Transistors
Bio-Nano Measurement Research Group Seminar, Shikoku Center, National Institute of Advanced Industrial Science and Technology, Kagawa, January 2015

3. “Development of flexible organic transistors by printing method and investigation of their application to next-generation chemical/biosensors
Chemical Society of Japan Tohoku Conference, Yamagata University Yonezawa Campus, Yamagata, September 2014

2. “Development of supramolecular sensors with functional expression in aqueous solution and simultaneous multi-component analysis by microarraying
Biomedical Research Division Seminar, Tsukuba Center, National Institute of Advanced Industrial Science and Technology, Ibaraki, 2014 July

1. “Sensing of bioactive amines using fluorescent cucurbituril derivatives
Okayama University, Tsushima Campus, Okayama, June 2013