Difference between revisions of "Berkelium"
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==Discovery== | ==Discovery== | ||
| − | Berkelium was first produced in 1949 by the bombardment of an [[americium]]-241 target with [[α-particle]]s: the nuclear reaction is {{Nuclide|Z=95|A=241}}(α,2n){{Nuclide|Z=97|A=243}}. The product berkelium-243 was separated by [[ion exchange chromatography]], where it elutes just ahead of [[curium]].<ref>{{citation | first1 = S. G. | last1 = Thompson | authorlink1 = Stanley G. Thompson | first2 = A. | last2 = Ghiorso | authorlink2 = Albert Ghiorso | first3 = G. T. | last3 = Seaborg | authorlink3 = Glenn T. Seaborg | title = Element 97 | journal = Phys. Rev. | year = 1950 | volume = 77 | issue = 6 | pages = 838–39 | doi = 10.1103/PhysRev.77.838.2}}.</ref><ref>{{citation | first1 = S. G. | last1 = Thompson | authorlink1 = Stanley G. Thompson | first2 = A. | last2 = Ghiorso | authorlink2 = Albert Ghiorso | first3 = G. T. | last3 = Seaborg | authorlink3 = Glenn T. Seaborg | title = The New Element Berkelium (Atomic Number 97) | journal = Phys. Rev. | year = 1950 | volume = 80 | year = 5 | pages = 781–89 | doi = 10.1103/PhysRev.80.781}}.</ref> | + | Berkelium was first produced in 1949 by the bombardment of an [[americium]]-241 target with [[α-particle]]s: the nuclear reaction is {{Nuclide|Z=95|A=241}}(α,2n){{Nuclide|Z=97|A=243}}. The product berkelium-243 (''t''<sub>½</sub> = 4.5(2) hours) was separated by [[ion exchange chromatography]], where it elutes just ahead of [[curium]], its [[Beta decay|β<sup>+</sup>-decay]] product.<ref>{{citation | first1 = S. G. | last1 = Thompson | authorlink1 = Stanley G. Thompson | first2 = A. | last2 = Ghiorso | authorlink2 = Albert Ghiorso | first3 = G. T. | last3 = Seaborg | authorlink3 = Glenn T. Seaborg | title = Element 97 | journal = Phys. Rev. | year = 1950 | volume = 77 | issue = 6 | pages = 838–39 | doi = 10.1103/PhysRev.77.838.2}}.</ref><ref name="name">{{citation | first1 = S. G. | last1 = Thompson | authorlink1 = Stanley G. Thompson | first2 = A. | last2 = Ghiorso | authorlink2 = Albert Ghiorso | first3 = G. T. | last3 = Seaborg | authorlink3 = Glenn T. Seaborg | title = The New Element Berkelium (Atomic Number 97) | journal = Phys. Rev. | year = 1950 | volume = 80 | year = 5 | pages = 781–89 | doi = 10.1103/PhysRev.80.781}}.</ref><ref group="Note">The decay of <sup>243</sup>Bk was initially thought to be by [[Electron-capture decay|electron capture]]: the product nuclide is the same in both cases, {{Nuclide|Z=96|A=243}} (''t''<sub>½</sub> = 29.1(1) years).</ref> |
==Notes and references== | ==Notes and references== | ||
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Berkelium (symbol: Bk) is a synthetic chemical element and a member of the actinoid series. It is named after the city of Berkeley, California, the location of the University of California Radiation Laboratory where it was discovered in 1949.
Discovery
Berkelium was first produced in 1949 by the bombardment of an americium-241 target with α-particles: the nuclear reaction is 24195Am(α,2n)24397Bk. The product berkelium-243 (t½ = 4.5(2) hours) was separated by ion exchange chromatography, where it elutes just ahead of curium, its β+-decay product.[10][11][Note 4]
Notes and references
Notes
- ↑ The melting point quoted here is the weighted mean of the values found by Fahey et al. (1972)[1] and Ward et al. (1982).[2]
- ↑ The Pauling electronegativity was estimated from periodic trends rather than being calculated from bond energy data.
- ↑ The quoted atomic radii are based on the usual convention that r(O2−, Oh) = 140 pm; on the alternative convention of r(F−, Oh) = 119 pm, the value would be 110 pm for octahedral Bk3+.
- ↑ The decay of 243Bk was initially thought to be by electron capture: the product nuclide is the same in both cases, 24396Cm (t½ = 29.1(1) years).
References
- ↑ 1.0 1.1 Fahey et al., 1972
- ↑ 2.0 2.1 2.2 Ward et al., 1982
- ↑ 3.0 3.1 Peterson et al., 1971
- ↑ Pauling, Linus The Nature of the Chemical Bond, 3rd ed.; Ithaca, NY, 1960. ISBN 0-8014-0333-2.
- ↑ Köhler, S.; Deißenberger, R.; Eberhardt, K.; Erdmann, N.; Herrmann, G.; Huber, G.; Kratz, J. V.; Nunnemann, M., et al. Determination of the first ionization potential of actinide elements by resonance ionization mass spectroscopy. Spectrochim. Acta, Part B 1997, 52 (6), 717–26. DOI: 10.1016/S0584-8547(96)01670-9.
- ↑ Erdmann, N.; Nunnemann, M.; Eberhardt, K.; Herrmann, G.; Huber, G.; Köhler, S.; Kratz, J. V.; Passler, G., et al. Determination of the first ionization potential of nine actinide elements by resonance ionization mass spectroscopy (RIMS). J. Alloys Compd. 1998, 271–273, 837–40. DOI: 10.1016/S0925-8388(98)00229-1.
- ↑ Shannon and Prewitt, 1969
- ↑ Shannon, R. D. Revised effective ionic radii and systematic studies of interatomic distances in halids and chalcogenides. Acta Crystallogr. A 1976, 32 (5), 751–67. DOI: 10.1107/S0567739476001551.
- ↑ Ward and Hill, 1976
- ↑ Thompson, S. G.; Ghiorso, A.; Seaborg, G. T. Element 97. Phys. Rev. 1950, 77 (6), 838–39. DOI: 10.1103/PhysRev.77.838.2.
- ↑ Thompson, S. G.; Ghiorso, A.; Seaborg, G. T. The New Element Berkelium (Atomic Number 97). Phys. Rev. 5, 80, 781–89. DOI: 10.1103/PhysRev.80.781.
External links
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