| Address |
2641 Yamazaki, Noda-shi, Chiba-ken 278-8510, Japan
TEL : +81-4-7124-1501 |
| E-mail Address |
|
| Homepage |
https://jp.linkedin.com/in/isaoshitanda (English)
http://islab.ca.noda.tus.ac.jp/
https://www.facebook.com/itagakishitanda |
| Information about TUS |
https://www.tus.ac.jp/academics/teacher/lightbox/380c.html
|
Pure
(Researcher Profiling Tool) |
https://tus.elsevierpure.com/ja/persons/isao-shitanda |
| Under-Graduate School |
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2001, Tokyo University of Science Faculty of Science and Engineering Department of Pure and Applied Chemistry
|
| Graduate School |
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2006, The University of Tokyo Graduate School, Division of Engineering Department of Advanced Interdiscipinary Studies Doctoral Degree
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| Postgraduate Qualification |
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The University of Tokyo Doctor of Engineering
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| Research History |
- From 2000-2001, he analyzed copper electrodeposition mechanisms using the channel flow electrode technique, establishing quantitative methods for electrode kinetics and mass transport analysis. From 2001-2003, he studied microcapsule composite plating and structural control. From 2003-2006, he developed whole-cell biosensing using algal cells. Since 2006, he has advanced EIS-based research spanning wearable sensors, biofuel cells, battery diagnostics, corrosion analysis, rheo-impedance, and electrochemical simulation.
|
| Employment History |
2006-2007 Faculty of Science and Engineering, Tokyo University of Science., Reserch Associate
2007- Faculty of Science and Engineering, Tokyo University of Science., Assistant Professor
2010-2011 University of California San Diego., Visiting Scholar
2012-
202004- Tokyo University of Science, Department of Pure and Applied Chemistry, Faculty of Science and Technology, Associate Professor
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| Research Keyword |
biosensor,biofuel cell, screen-printing,electroplating, electrochemical impedance spectroscopy, Reo-impedance
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| Research Area |
- Nano/Microsystems (Electrochemical nanomotor/micromotor)
- Physical chemistry (electrochemical impedance)
- Analytical chemistry (biosensor)
- Bio-related chemistry (microencapsulation of enzyme)
- Green/Environmental chemistry (whole-cell based biosensor)
- Material processing/Microstructural control engineering (microcapsule composite coating)
- Biofunction/Bioprocess (Wearable biofuel cell)
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| Research Theme |
- Simultaneous evaluation of rheological and ionic transport properties in gels, surfactant systems, and food soft materials
- Development of enzyme-based and impedance-type printed electrochemical biosensors
- Rheo-impedance evaluation of dispersion state and interparticle contact resistance in electrode slurries
- Electrochemical Impedance Spectroscopy, Equivalent Circuit Analysis, Distributed Systems, Reaction-Transport Analysis
- Advanced reaction and transport analysis based on electrochemical impedance spectroscopy (EIS) and its applications to lithium-ion battery diagnostics, rheo-impedance evaluation of electrode slurries, printed electrochemical biosensors, and self-powered wearable sensing systems using enzyme biofuel cells
- In-situ Electrochemical Impedance Measurement System for Healthcare of Lithium Battery
- Development of Nanomotor and Micromotor
- Electrochemical Impedance Study for Biosensor and Biofuel Cell
- Development of Wearable Biofuel Cell and Biosensor
- Cell-based biosensor
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| Academic Awards Received |
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2026.2.10
Selected as Supplemental Cover of ACS Omega
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2025.11.25
Selected as Supplemental Cover of Langmuir
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2025.10.15
Selected as Outside Front Cover of Langmuir
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2025.10.10
Selected as Outside Front Cover of Langmuir
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2025.8.6
Selected as Supplemental Cover of Langmuir
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2025.1.14
2024 ANNUALLY MOST DOWNLOADED PAPERS
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2025.1.14
Selected as Supplemental Cover of Langmuir
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2024.7.16
2023 CONTINUOUSLY HIGHLY CITED PAPERS
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2024.7.12
2024 BIMONTHLY MOST DOWNLOADED PAPERS
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2024.1.16
2023 ANNUALLY MOST DOWNLOADED PAPERS
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2023.8.23
Selected as Supplemental Cover of ACS Applied Electronic Materials
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2023.8.1
ACS Sensors top 10 most read
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2023.7.28
Selected as Supplemental Cover of ACS Sensors
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2023.7.1
ACS Sensors top 10 most read
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2023.7.1
Selected as Supplemental Cover of ACS Sensors
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2023.1.20
2022 CONTINUOUSLY HIGHLY CITED PAPERS
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2022.2.13
2021 CONTINUOUSLY HIGHLY CITED PAPERS
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2022.1.24
2021 ANNUALLY MOST DOWNLOADED PAPERS
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2022.1.16
2022 ANNUALLY MOST DOWNLOADED PAPERS
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2021.10.5
ACS Sensors top 10 most read
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2021.9.24
Selected as Supplemental Cover of ACS Sensors
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2021.3.19
Back cover published in Chemical Communications
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2021.2.4
2020 Annual Most Cited Papers
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2021.1.23
2020 ANNUAL MOST DOWNLOADED PAPERS
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2021.1.23
BIMONTHLY MOST DOWNLOADED PAPERS
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2019.10.31
ET/IoT Technology Award 2019: Embedded Technology Award
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2013.7.4
ISE Prize for Environmental Electrochemistry
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2013.6.20
EIS2013 Best Poster Award
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2011.5.12
Best Poster Prize at 9th ISE Spring Meeting
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| Academic Society Affiliations |
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2025.4.1 - 2027.3.31
Associate Editor of Electrochemistry
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2025.1.1 - 2027.12.31
International society of Electrochemistry
Vice Chair of Division 4
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2021.11.5 - 2022.3.31
Electrochemical Society of Japan
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2021.4.1 - 2022.3.31
Elsevier
Guest Editor of Biosensors and Bioelectronics
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2020.4.1 - 2021.3.31
Institute of Physics (IOP)
Guest Editor of Journal of Physics Energy
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2019.3.1 - 2021.3.1
ECSJ
Associate Editor
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2016.11.30 - 2019.4.1
Electrochemical Society of Japan
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2007.4.1 - 2007.9.14
80th JSCM Anniversary Conference
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| Guest Professor |
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2016.7.1 - 2017.3.31
国立大学法人 山形大学
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2017.4.1 - 2018.3.31
国立大学法人 山形大学
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2018.4.1 - 2019.3.31
国立大学法人 山形大学
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2019.4.1 - 2020.3.31
国立大学法人 山形大学
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