Kyushu University Academic Staff Educational and Research Activities Database
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Takeshi Onodera Last modified date:2023.10.03

Graduate School
Undergraduate School

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 Reseacher Profiling Tool Kyushu University Pure
Academic Degree
Doctor of philosophy in engineering
Country of degree conferring institution (Overseas)
Field of Specialization
sensor technology
ORCID(Open Researcher and Contributor ID)
Total Priod of education and research career in the foreign country
Outline Activities
We are developing a sensitive detection method for low-molecular-weight substances such as explosives, perfumes using surface plasmon resonance (SPR) sensors and antigen-antibody interaction. We are developing sensor surfaces using organic nanomaterials. We are also working on the development of portable SPR sensors in collaboration with companies, cancer screening methods using SPR sensors. In addition, we are developing an odor sensor using photonic crystals. We are developing detection methods and visualization techniques for plant rhizosphere chemicals.
Research Interests
  • Development of chemical detection method for rhizosphere chemical
    keyword : rhizosphere,soybean, isoflavone
  • Development of odor sensor using photonic crystal
    keyword : odor sensor, photonic crystal
  • Development of sampling system for low molecular substance
    keyword : low molecular substance, explosives
  • Development of sensitive biosensor based on surface plasmon resonance for low molecular substance
    keyword : surface plasmon resonance, biosensor, antigen-antibody interaction, explosives, fragrant compounds, low molecular substance
Academic Activities
1. Takeshi Onodera, Yusuke Tahara, Rui Yatabe, Kiyoshi Toko, Nano-biosensors for Gustatory and Olfactory Senses, American Scientific Publishers, Vol.28, pp.363-385, 2018.04.
2. Takeshi Onodera, Electronic Dog Nose Using Surface Plasmon Resonance Method, Pan Stanford Publishing, Singapore, Biochemical Sensors: Mimicking Olfactory and Gustatory Senses (Editor: K. Toko), 2013.09.
1. Takeshi Onodera, Kiyoshi Toko, Towards an Electronic Dog Nose: Surface Plasmon Resonance Immunosensor for Security and Safety, Sensors, 14, 16586-16616 (2014) doi:10.3390/s140916586, 2014.09.
1. Hengwei Xu, Zeyu Zhao, Shunsuke Kimura, Takeshi Onodera and Kiyoshi Toko, Molecular Structure Underlying the Allosteric Mechanism of Caffeine Detection in Taste Sensor, Chemosensors,, 11(2), 97, 2023.01, [URL].
2. Zihong Ye, Tianci Ai, Xiao Wu , Takeshi Onodera , Hidekazu Ikezaki, Kiyoshi Toko, Elucidation of Response Mechanism of a Potentiometric Sweetness Sensor with a Lipid/Polymer Membrane for Uncharged Sweeteners,, Chemosensors, 10, 166 (2022), 2022.04.
3. Zeyu Zhao, Misaki Ishida, Takeshi Onodera, Kiyoshi Toko, Effect of Hydroxybenzoic Acids on Caffeine Detection Using Taste Sensor with Lipid/Polymer Membranes, Sensors,, 22, 1607,, 2022.02.
4. Takeshi Onodera, Kengo Mieda, Kazuma Taniguchi, Fabrication of Mask by Drag Coating Convective Self-Assembly in Nanosphere Lithography for Nanohole Array, IEEJ Transactions on Sensors and Micromachines,, 142, 1, 15-16, 2022.01.
5. Takeshi Onodera, Haruna Miyazaki, Xinzhu Li, Jin Wang, Masaru Nakayasu, Rui Yatabe, Yusuke Tahara, Ai Hosoki, Nozomu Sakurai, Akifumi Sugiyama, Development of two-dimensional qualitative visualization method for isoflavones secreted from soybean roots using sheets with immobilized bovine serum albumin, Biosensors and Bioelectronics,, 196, 113705, 2022.01, [URL].
6. H. Murakami, M. Sawada, T. Kimura, T. Takahara, T. Onodera, Detection of amine gases by inverse opal photonic crystals infiltrated with precursor HPQ-Ac of aggregation-induced emission luminogen, ELECTRONICS AND COMMUNICATIONS IN JAPAN, 10.1002/ecj.12300, 1-7, Translated fromVolume 140 Number 11, pages 309–314, DOI: 10.1541/ieejsmas.140.309 of IEEJ Transactions on Sensors andMicromachines (Denki Gakkai RonbunshiE), 2020.12.
7. Yuto Komori, Hiroaki Murakami, Taiki Kimura, Takeshi Onodera, Fabrication of Inverse Opal Photonic Crystals with Mesopores Using Binary Colloidal Co-assembly Method for Signal Enhancement in Formaldehyde Detection, Sensors and Materials, Vol.31, No.2, pp.645-659 (2019), 2019.02.
8. Jin Wang, Sanyang Du, Takeshi Onodera, Rui Yatabe, Masayoshi Tanaka, Mina Okochi, Kiyoshi Toko, An SPR Sensor Chip Based on Peptide-Modified Single-Walled Carbon Nanotubes with Enhanced Sensitivity and Selectivity in the Detection of 2,4,6-Trinitrotoluene Explosives, Sensors,, 18, 12, 4461, 2018.12.
9. JIN WANG, Masaki Muto, Rui Yatabe, Takeshi Onodera, Masayoshi Tanaka, Mina Okochi, Kiyoshi Toko, Highly Selective Rational Design of Peptide-Based Surface Plasmon Resonance Sensor for Direct Determination of 2,4,6-trinitrotoluene (TNT) Explosive, Sensors and Actuators B, 10.1016/j.snb.2018.02.075, 263, 279-284, 2018.07.
10. Mina Okochi, Masaki Muto, Kentaro Yanai, Masayoshi Tanaka, Takeshi Onodera, JIN WANG, Kiyoshi Toko, Array-Based Rational Design of Short Peptide Probe-Derived from an Anti-TNT Monoclonal Antibody, ACS Combinatorial Science, 10.1021/acscombsci.7b00035, 19 (10), pp 625–632 (2017), 2017.09.
11. JIN WANG, Masaki Muto, Yatabe Rui, Takeshi Onodera, Masayoshi Tanaka, Mina Okochi, Kiyoshi Toko, Rational Design of Peptide-Functionalized Surface Plasmon Resonance Sensor for Specific Detection of TNT Explosive, Sensors, 10.3390/s17102249, 17, 2249 (8 pages), 2017.09.
12. Takeshi Onodera, Ryosuke Ishii, Yatabe Rui, Kiyoshi Toko, Development of Sensor Surfaces Using Poly(N-vinyl formamide) for Sensitive Detection of 2,4,6-Trinitrotoluene by Displacement Method on a Surface Plasmon Resonance Sensor, Sensors and Materials, Vol.28, No.3, pp.209-218 , 2016.03.
13. Masahiro Naruse, Masahiro Morishita, Takeshi Onodera, Kiyoshi Toko, Yuzuru Hayashi, Modeling of Detection Limit for Competitive Immunoassay using Surface Plasmon Resonance Sensor, Sensors and Materials, Vol.28, No.3, pp.219-229, 2016.03.
14. Satoshi Ito, Shuhei Tanaka, 矢田部 塁, Takeshi Onodera, Kiyoshi Toko, Sensitive Detection of 2,4,6-Trinitrotoluene by Surface Plasmon Fluorescence Spectroscopy, IEEE Sensors 2014 PROCEEDINGS, 325-328, 2014.11.
15. 矢田部 塁, Takeshi Onodera, Kiyoshi Toko, Fabrication of surface plasmon resonance sensor surface with control of the nonspecific adsorption and affinity for the detection of 2,4,6-trinitrotoluene using an antifouling copolymer, frontiers in BIOENGINEERING AND BIOTECHNOLOGY, 10.3389/fbioe.2014.00010, Volume 2, Article 10, pp.1-7, 2014.04.
16. Shingo Nakamura, Rui Yatabe, Takeshi Onodera, Kiyoshi Toko, Sensitive Detection of Capsaicinoids Using a Surface Plasmon Resonance Sensor with Anti-Homovanillic Acid Polyclonal Antibodies, Biosensors, 10.3390/bios3040374, Vol.3, No.4, pp.374-384 (2013), 2013.11.
17. Rui Yatabe, Takeshi Onodera, Kiyoshi Toko, Fabrication of an SPR Sensor Surface with Antifouling Properties Using Surface Initiated Atom Transfer Polymerization for Highly Sensitive Detection of 2,4,6-Trinitrotoluene, Sensors, doi:10.3390/s130709294, 13, 9294-9304, 2013.07.
18. Yusuke Tanaka, Rui Yatabe, Kazutaka Nagatomo, Takeshi Onodera, Kiyoshi Matsumoto, Kiyoshi Toko, Preparation and Characteristics of Rat Anti-1,3,5-Trinitroperhydro-1,3,5-Triazine (RDX) Monoclonal Antibody and Detection of RDX Using Surface Plasmon Resonance Immunosensor, IEEE Sensors Journal, 10.1109/JSEN.2013.2269697, 2013.06.
19. Masato Yasuura, Kiyoshi Toko, Takeshi Onodera, Modeling of Displacement Method in Surface Plasmon Resonance Sensing, Sensors and Materials, Vol. 23, No.1, pp.21-37, 2011.01.
20. Takeshi Onodera, Yutaka Mizuta, Kazuhiko Horikawa, Praveen Singh, Kiyoshi Matsumoto, Norio MIURA, Kiyoshi Toko, Displacement immunosensor based on surface plasmon resonance for rapid and highly sensitive detection of 2,4,6-trinitrotoluene, Sensors and Materials, Vol. 23, No.1, pp.38-52, 2011.01.
21. Takeshi Onodera, Takuzo Shimizu, Norio Miura, Kiyoshi Matsumoto, Kiyoshi Toko, Development of Surface Plasmon Resonance Based Sensitive Immunosensor for Benzaldehyde Detection, IEEJ Trans. SM, Vol.130, No.7, pp.269-274, 2010.07.
22. Yutaka Mizuta, Takeshi Onodera, Praveen Singh, Kiyoshi Matsumoto, Norio Miura, Kiyoshi Toko, Highly sensitive detection of TNT using a poly(amidoamine) dendron-based SPR immunosensor, Sensors and Materials, Vol. 22, No. 4, pp.193-200 (2010), 2010.06.
23. Praveen Singh, Takeshi Onodera, Yutaka Mizuta, Kiyoshi Matsumoto, Norio MIURA, Kiyoshi Toko, Dendrimer modified biochip for detection of 2,4,6 trinitrotoluene on SPR immunosesnor: Fabrication and Advantages, Sensors & Actustors B, 10.1016/j.snb.2008.12.027, Vol.137, pp.403-409 (2009), 2009.04.
24. Yutaka Mizuta, Takeshi Onodera, Praveen Singh, Kiyoshi Matsumoto, Norio Miura, Kiyoshi Toko, Development of an Oligo(ethylene glycol)-based SPR Immunosensor for TNT Detection, Biosensors and Bioelectronics, 10.1016/j.bios.2008.03.042, Vol.24, Issue 2, pp.191-197, 2008.04.
25. Praveen Singh, Takeshi Onodera, Yutaka Mizuta, Kiyoshi Matsumoto, Norio MIURA, Kiyoshi Toko, Novel DNP-KLH Protein Conjugate Surface for Sensitive Detection of TNT on SPR Immunosensor, Sensors and Materials, vol.19 , No.9 , P261--273, 2007.06.
Works, Software and Database
1. .
1. Nozomu Sakurai, Takeshi Onodera, Sensors for chemicals in the rhizosphere, International Workshop "Unveiling the secret of underground: technologies for visualizing root and rhizosphere", 2022.11.
2. Takeshi Onodera, Highly sensitive Detection of Explosives Using Surface Plasmon Resonance, 3rd International Conference on Signal Processing & Integrated Networks (SPIN2016, 11th-12th, February 2016), 2016.02.
Other Educational Activities
  • 2011.04.
  • 2010.04.
  • 2009.04.