Astatine: Difference between revisions
imported>David Yamakuchi mNo edit summary |
imported>David Yamakuchi mNo edit summary |
||
| Line 2: | Line 2: | ||
{{Elem Infobox | {{Elem Infobox | ||
|elName=Astatine | |elName=Astatine | ||
|no1= | |no1=-1 | ||
|no2= | |no2= | ||
|no3= | |no3= | ||
Revision as of 16:58, 27 June 2008
- The content on this page originated on Wikipedia and is yet to be significantly improved. Contributors are invited to replace and add material to make this an original article.
History
(Gr. astatos: unstable) Synthesized in 1940 by D.R. Corson, K.R. MacKenzie, and E. Segre at the University of California by bombarding bismuth with alpha particles. The longest-lived isotopes, with naturally occurring uranium and thorium isotopes, and traces of 217At are equilibrium with 233U and 239Np resulting from integration of thorium and uranium with naturally produced neutrons. The total amount of astatine present in the earth's crust, however, is less than 1 oz.
Production
Astatine can be produced by bombarding bismuth with energetic alpha particles to obtain the relatively long-lived 209-211At, which can be distilled from the target by heating in air. Properties
Chemistry
The "time of flight" mass spectrometer has been used to confirm that this highly radioactive halogen behaves chemically very much like other halogens, particularly iodine. Astatine is said to be more metallic than iodine, and, like iodine, it probably accumulates in the thyroid gland. Workers at the Brookhaven National Laboratory have recently used reactive scattering in crossed molecular beams to identify and measure elementary reactions involving astatine.
This article was sourced from Los Alamos National Labs http://periodic.lanl.gov/elements/85.html on 27 June, 2008.