| Date | 2022.3.11 (10:00 - 12:00) |
|---|---|
| Venue | |
| Speaker | Dr. Koji Sode |
| Affiliation | University of North Carolina at Chapel Hill (U.S.A.) |
| Title | ※On-line Seminar via Zoom Join the Zoom Meeting https://tuat-jp.zoom.us/j/7941277589?pwd=czAxb2d1akkveG5sdm9VRXR0cmozdz09 ミーティングID: 794 127 7589 パスコード: WT9bEd -------------------------------------------------------------------------------------------------------- 10:00〜 10:40 ◆Dr. Koji Sode (William R. Kenan Jr. Distinguished Professor, Joint Department of Biomedical Engineering, University of North Carolina at Chapel Hill, U.S.A.) ◆Title:"Recent Progresses in the Development of the Biosensors and Biosensing Systems for Biomedical Applications at Biomolecular Engineering laboratory at the BME UNC/NCSU” 〈Abstract〉 Our laboratory started in 2018 January as the “Biomolecular Engineering” laboratory, based on the strategic research concept to create novel biosensing molecules through biomolecular engineering to develop biosensing technologies dedicated to health care and medical application. Our one of the ultimate goals is to create closed loop-medical devices, which can aid in the recognition and/or diagnosis of medical conditions and provide medicine/treatment to patients suffering from various diseases (metabolic disorders, mental disorders, cancer, etc.). The targets for our biomolecular engineering are enzymes, antibodies, binding proteins, receptors/transporters, aptamers, and synthetic molecules. Mainly with the combination of a variety of electrochemical principles (amperometric, potentiometric, voltametric, and impedimetric) and advanced platforms, we have been developing innovative biosensors and biosensing systems. Currently, our laboratory is focusing on the development of: 1. Innovative POCT/personal sensing systems for biomarker detection 2. Novel in situ, real-time, continuous multi-parameter biosensing systems 3. Novel biosensing molecules, principles and systems for mental health care, brain diseases, metabolic disorders, and neural transmitters. 4. Autonomous and self-powered biomedical devices to realize smart drug delivery systems. In this lecture, I will introduce our current representative achievements in the above topics, including in the development of novel electrochemical principle for enzyme sensor based on open circuit potential, novel POCT type electrochemical impedance/square wave voltammetry based sensors, and creation of engineered molecules for novel biosensing systems. University of North Carolina at Chapel Hill, North Carolina State University as well our superb research and education environment will be also introduced. 10:40〜11:05 ◆Dr. Shohei Takamatsu, TUAT ◆Title:"Development of Electrochemical Biosensors for Amino Acids Using Redox-probe-modified Enzymes Based on an Open Circuit Potential Measurement" 11:05〜11:30 ◆Dr. Shunichi Kobayashi, TUAT ◆Title:"Engineering of Cyanobacteria for Light-induced Production of Valuable Chemicals from CO2" 11:30〜12:00 ◆Free Discussion |
| Language | English |
| Intended for | Everyone is welcome to join. |
| Co-Organized by | Institute of Global Innovation Research, “LIFE SCIENCE” Ikebukuro Team Excellent Leader Development for Super Smart Society by New Industry Creation and Diversity |
| Contact | Institute of Global Innovation Research, Institute of Engineering Prof. Kazunori Ikebukuro Email: ikebu(at)cc.tuat.ac.jp |
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