Mass spectrometry timeline: Difference between revisions
From Mass Spec Terms
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:'''1919''' | :'''1919''' | ||
::Francis Aston [http://www.nobel.se/chemistry/laureates/1922/aston-bio.html] constructs the first velocity focusing mass spectrograph with [[mass resolving power]] of 130 (Aston, F. W. A positive-ray spectrograph. ''Phil. Mag.'' '''1919''', 38, 707-715). | :: Francis Aston [http://www.nobel.se/chemistry/laureates/1922/aston-bio.html] constructs the first velocity focusing mass spectrograph with [[mass resolving power]] of 130 (Aston, F. W. A positive-ray spectrograph. ''Phil. Mag.'' '''1919''', 38, 707-715). | ||
:'''1922''' | :'''1922''' | ||
:: | ::Aston is awarded the Nobel Prize in chemistry "for his discovery, by means of his mass spectrograph, of isotopes, in a large number of non-radioactive elements, and for his enunciation of the whole-number rule." | ||
:'''1937''' | |||
::Aston constructs a mass spectrograph with resolving power of 2000. | |||
== 21st Century == | == 21st Century == | ||
Revision as of 13:14, 25 April 2006
19th Century
- 1886
- Eugen Goldstein [1] observes canal rays.
- 1898
- Wilhelm Wien [2] demonstrates that canal rays can be deflected using strong electric and magnetic fields.
20th Century
- 1919
- Francis Aston [5] constructs the first velocity focusing mass spectrograph with mass resolving power of 130 (Aston, F. W. A positive-ray spectrograph. Phil. Mag. 1919, 38, 707-715).
- 1922
- Aston is awarded the Nobel Prize in chemistry "for his discovery, by means of his mass spectrograph, of isotopes, in a large number of non-radioactive elements, and for his enunciation of the whole-number rule."
- 1937
- Aston constructs a mass spectrograph with resolving power of 2000.
21st Century
- 2002
