Hisashi Matsuda (松田 久, 2 March 1924 - 13 November 2011)[1] was a Japanese physicist known for his work in ion optics and mass spectrometry, specifically known for his contributions to instrument design.[2]
Hisashi Matsuda | |
---|---|
Born | |
Died | November 13, 2011 | (aged 87)
Nationality | Japanese |
Alma mater | Osaka University |
Scientific career | |
Fields | optics and mass spectrometry |
Institutions | Osaka University |
Doctoral advisor | Koreichi Ogata |
Career and Research
editMatsuda was born in Osaka and studied physics and mathematics at Osaka University, receiving a PhD in 1957 from Osaka University for his thesis on mass spectrometry under Koreichi Ogata.[2] He started as assistant professor in 1955 and become associate professor in 1959 and full professor 1963 at Osaka University.[2] His career was devoted to mass spectrometry, developing novel ion optics and improving resolving power.[2] In 1956 he constructed the Ogata–Matsuda type instrument with a mass resolution of 900,000 which was the highest resolution worldwide.[1] He constructed mass spectrometers suited for analysis of large biomolecules and was one of the first to realize the implications of mass spectrometry on the analysis of peptides and proteins.[2] He retired in 1987.
He was awarded several prizes for his work, including the Nishina Memorial Prize in 1969 and the Toray Science and Technology Prize in 1982.[1] He received the Thomson medal from the International Mass Spectrometry Society in 1991 and the Order of the Rising Sun, Gold Rays with a Neck Ribbon in spring 2002.[1]
References
edit- ^ a b c d Toyoda, M. (2012). "Hisashi Matsuda (1924–2011)". Mass Spectrometry. 1 (2): K0003. doi:10.5702/massspectrometry.K0003. PMC 4570945.
- ^ a b c d e Gross, Michael L.; Caprioli, Richard M., eds. (2015). The Encyclopedia of Mass Spectrometry. ISBN 978-0-08-100379-4.[page needed]
External links
edit- Takayama, Mitsuo (2015). "Hisashi Matsuda". The Encyclopedia of Mass Spectrometry. Elsevier. pp. 145–146. doi:10.1016/B978-0-08-100379-4.00133-7. ISBN 9780081003794.