Curriculum Vitae
Dr. Taku Onishi
(September 2021 Version)
Educational Background
2000 – 2003 Department of Chemistry, Osaka University, Japan, PhD (March 2003)
1998 – 2000 Department of Chemistry, Osaka University, Japan, Master (March 2000)
1994 – 1998 Department of Chemistry, Osaka University, Japan, Bachelor (March 1998)
Work Experience
2021 – Present Invited Professor, University of the Ryukyus, Japan
2016 – 2020 Guest Researcher, Department of Engineering, University of the Ryukyus, Japan
2016 – 2018 Guest Academician, Department of Applied Physics, Osaka University, Japan
2010 – Present Guest Researcher, Department of Chemistry, University of Oslo, Norway
2010 – 2011 Excellent Young Researcher Overseas Visit Program, JSPS
(Department of Chemistry, University of Oslo, Norway)
2009 – 2018 Assistant Professor, MIE-CUTE, Mie University, Japan
2003 – Present Assistant Professor, Graduate School of Engineering, Mie University, Japan
2003 – 2003 Research Associate, Department of Chemistry, Osaka University, Japan
2001 – 2003 Research Fellowship of Young Scientists (DC2), JSPS
International Editorial Board
1) Journal of Computational Methods in Sciences and Engineering (IOS press)
2) Cogent Engineering (Taylor & Francis)
3) Cogent Chemistry (Taylor & Francis, Until 2020)
International Organizing Committee
1) Chair, Quantum Science (QC) SymposiumiGreece)
2) Chair, Computational Chemistry (CC) Symposium (Until 2019)iGreece)
3) Science Committee, ICCMSEiGreecej
4) Organiser, QuaCheSol symposium (Russia)
-Quantum Chemical Modeling of Solids with Computers: from Plane Waves to Local Structures
5) Chair, TheUniv. Ryukyus International Symposium of Theoretical and Computational Science: RIS-TCS (Japan)
Award
1) IAAM Medal 2018 (Sweden)
2) IAAM Medal 2017 (Sweden)
*IAAM=International Association of Advanced Materials
Book
Single Author
1)Quantum Computational Chemistry
- Modelling and Calculation for Functional Materials
Taku Onishi*, 16 Chapters, pp. 1-290 (2018) Springer Nature
Chapter Author
1)Theoretical Chemistry for Advanced Nanomaterials-Functional Analysis by Computation and Experiment
Chapter 1: Theoretical Chemistry for Advanced Nanomaterials: Computational and Experimental Approaches
Taku Onishi*, pp. 3-23 (2020) Springer Nature
2)Theoretical Chemistry for Advanced Nanomaterials-Functional Analysis by Computation and Experiment
Chapter 2: Quantum Chemistry in Perovskite Fluoride and Hydride: Nanoscale Hydride Ion Conduction
Taku Onishi*, pp. 27-51 (2020) Springer Nature
3)Progress in Theoretical Chemistry and Physics
Chapter 11: A Theoretical Study of Covalent Bonding Formation Between Helium and Hydrogen
Taku Onishi*, Vol. 31, pp. 203-211 (2018) Springer Nature
4)Advances in Quantum Chemistry
Chapter 2: Quantum Chemistry in Proton-Conductors: Mechanism Elucidation and Materials Design
Taku Onishi*, Vol. 70, p31-67 (2015) Elsevier
5)Progress in Theoretical Chemistry and Physics
Chapter 13: A theoretical study on a visible light photocatalytic activity in carbon-doped SrTiO3 perovskite
Taku Onishi*, Vol. 27, pp. 221-232 (2013) Springer Nature
6)Progress in Theoretical Chemistry and Physics
Chapter 14: A Theoretical Study on Proton Conduction Mechanism in BaZrO3 Perovskite
Taku Onishi*, Trygve Helgaker, Vol. 27, pp. 233-248 (2013) Springer Nature
7)Advances in Quantum Chemistry
Chapter 2: Quantum Chemistry in Functional Inorganic Chemistry
Taku Onishi*, Vol. 64, p31-81 (2012) Elsevier