Takuzo Aida
- January 10, 2024
- Chemist
Quick Facts
| Full Name | Takuzo Aida |
| Occupation | Chemist |
| Date Of Birth | May 3, 1956(1956-05-03) |
| Age | 68 |
| Birthplace | Oita |
| Country | Japan |
| Birth City | Ōita Prefecture |
| Horoscope | Taurus |
Takuzo Aida Biography
| Name | Takuzo Aida |
| Birthday | May 3 |
| Birth Year | 1956 |
| Place Of Birth | Oita |
| Home Town | Ōita Prefecture |
| Birth Country | Japan |
| Birth Sign | Taurus |
Takuzo Aida is one of the most popular and richest Chemist who was born on May 3, 1956 in Oita, Ōita Prefecture, Japan.
Aida received his Bachelor of Engineering in Colloidal Science at the Yokohama National University in 1979, before moving to the University of Tokyo for his Master of Engineering (1981) and Doctor of Engineering (1984) degrees in Polymer Chemistry. He was awarded the Inoue Research Award for Young Scientists for his doctoral work, with the thesis title of “Controlled Polymerization by Metalloporphyrins” under the supervision of Professor Shohei Inoue.
After completing his doctoral studies, Aida was immediately appointed as an Assistant Professor in the Department of Synthetic Chemistry at the University of Tokyo. At the beginning of his research career, he worked on the development of precision macromolecular synthesis using metalloporphyrin complexes. In 1986, he was a visiting scholar at the IBM Almaden Research Center. Aida was promoted to the position of Lecturer in 1989 and Associate Professor in 1991, before being installed as a full professor in the Department of Chemistry and Biotechnology at the University of Tokyo in 1996.
Takuzo Aida Net Worth
| Net Worth | $5 Million |
| Source Of Income | Chemist |
| House | Living in own house. |
Takuzo Aida is one of the richest Chemist from Japan. According to our analysis, Wikipedia, Forbes & Business Insider, Takuzo Aida 's net worth $5 Million. (Last Update: December 11, 2023)
Takuzo Aida (相田 卓三 , Aida Takuzō, born May 3, 1956 in Japan) is a polymer chemist known for his work in the fields of supramolecular chemistry, materials chemistry and polymer chemistry. Aida, who is the Deputy Director for the RIKEN Center for Emergent Matter Science (CEMS) and a professor in the Department of Chemistry and Biotechnology, School of Engineering, at the University of Tokyo, has made pioneering contributions to the initiation, fundamental progress, and conceptual expansion of supramolecular polymerization. Aida has also been a leader and advocate for addressing critical environmental issues caused by plastic waste and microplastics in the oceans, soil, and food supply, through the development of dynamic, responsive, healable, reorganizable, and adaptive supramolecular polymers and related soft materials.
Height, Weight & Body Measurements
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Who is Takuzo Aida Dating?
According to our records, Takuzo Aida is possibily single & has not been previously engaged. As of December 1, 2023, Takuzo Aida’s is not dating anyone.
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Aida has served on the Board of Reviewing Editors for Science Magazine (since 2009), on the Advisory Board for the Journal of the American Chemical Society (since 2014), and as Associate Editor for the Journal of Materials Science (2004–2006). He has further served on the international advisory boards of over 15 journals, including executive advisory board for Giant.
Facts & Trivia
Renan Ranked on the list of most popular Chemist. Also ranked in the elit list of famous people born in Japan. Takuzo Aida celebrates birthday on May 3 of every year.
Aida has made significant contributions to filling the gap between supramolecular and conventional (covalent) polymerizations and inspired the field through the development of a variety of innovative materials by expansion of the basic concept of supramolecular polymerization. Representative examples include (1) “bucky gels”, carbon nanotubes physically crosslinked by ionic liquids and the use of this technology for graphite exfoliation to graphene, and the fabrication of the first metal-free stretchable electronics and battery-driven dry actuators for manufacturing mobile Braille devices, (2) “aqua materials”, highly water-rich (organic content of 0.1–0.2% for ultralow dependency on fossil resources) hydrogels anomalously having significant mechanical robustness or geometrical anisotropy, (3) ATP-responsive nanotubular carriers composed of chaperonin proteins, a biomolecular machine, (4) non-crosslinked photoactuators, (5) ferroelectric columnar liquid crystals, (6) mechanically robust yet self- healable polymer glass, (7) self-healable high-temperature porous organic materials, and (8) optoelectrically rewritable core-shell columnar liquid crystals with an AND logic gate operation.