Isotopes of beryllium
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Standard atomic weight (Ar) |
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Beryllium (4Be) has 12 known isotopes, but only one of these isotopes (9
Be
) is stable and a primordial nuclide. As such, beryllium is considered a monoisotopic element. It is also a mononuclidic element, because its other isotopes have such short half-lives that none are primordial and their abundance is very low (standard atomic weight is 9.0122). Beryllium is unique as being the only monoisotopic element with both an even number of protons and an odd number of neutrons. There are 25 other monoisotopic elements but all have odd atomic numbers, and even numbers of neutrons.
Of the 11 radioisotopes of beryllium, the most stable are 10
Be
with a half-life of 1.39 million years and 7
Be
with a half-life of 53.22 days. All other radioisotopes have half-lives under 13.85 seconds, most under 0.03 seconds. The least stable isotope is 6
Be
, with a half-life measured as 5.03 × 10−21 seconds.
The natural light-element ratio of equal protons and neutron numbers is prevented in beryllium by the extreme instability of 8
Be
toward alpha decay, which is favored due to the extremely tight binding of 4
He
nuclei. The half-life for the decay of 8
Be
is only 6.7(17)×10−17 seconds.
Beryllium is prevented from having a stable isotope with 4 protons and 6 neutrons by the very large mismatch in proton/neutron ratio for such a light element. Nevertheless, this isotope, 10
Be
, has a half-life of 1.39 million years, which indicates unusual stability for a light isotope with such a large neutron/proton imbalance. Still other possible beryllium isotopes have even more severe mismatches in neutron and proton number, and thus are even less stable.
Most 9
Be
in the universe is thought to be formed by cosmic ray nucleosynthesis from cosmic ray spallation in the period between the Big Bang and the formation of the solar system. The isotopes 7
Be
, with a half-life of 53.22 days, and 10
Be
are both cosmogenic nuclides because they are made on a recent timescale in the solar system by spallation, like 14
C
. These two radioisotopes of beryllium in the atmosphere track the sun spot cycle and solar activity, since this affects the magnetic field that shields the Earth from cosmic rays. The rate at which the short-lived 7
Be
is transferred from the air to the ground is controlled in part by the weather. 7
Be
decay in the sun is one of the sources of solar neutrinos, and the first type ever detected using the Homestake experiment. Presence of 7
Be
in sediments is often used to establish that they are fresh, i.e. less than about 3–4 months in age, or about two half-lives of 7
Be
.
List of isotopes
nuclide symbol |
Z(p) | N(n) | isotopic mass (u) |
half-life | decay mode(s)[2][n 1] |
daughter isotope(s)[n 2] |
nuclear spin |
representative isotopic composition (mole fraction) |
range of natural variation (mole fraction) |
---|---|---|---|---|---|---|---|---|---|
5 Be |
4 | 1 | 5.04079(429)# | p | 4 Li |
(1/2+)# | |||
6 Be |
4 | 2 | 6.019726(6) | 5.0(3)×10−21 s [0.092(6) MeV] |
2p | 4 He |
0+ | ||
7 Be [n 3] |
4 | 3 | 7.01692983(11) | 53.22(6) d | EC | 7 Li |
3/2− | Trace[n 4] | |
8 Be [n 5] |
4 | 4 | 8.00530510(4) | 6.7(17)×10−17 s [6.8(17) eV] |
α | 4 He |
0+ | ||
9 Be |
4 | 5 | 9.0121822(4) | Stable | 3/2− | 1.0000 | |||
10 Be |
4 | 6 | 10.0135338(4) | 1.39×106 years | β− | 10 B |
0+ | Trace[n 4] | |
11 Be [n 6] |
4 | 7 | 11.021658(7) | 13.81(8) s | β− (97.1%) | 11 B |
1/2+ | ||
β−, α (2.9%) | 7 Li | ||||||||
12 Be |
4 | 8 | 12.026921(16) | 21.49(3) ms | β− (99.48%) | 12 B |
0+ | ||
β−, n (0.52%) | 11 B | ||||||||
13 Be |
4 | 9 | 13.03569(8) | 2.7×10−21 s | n | 12 Be |
1/2+ | ||
14 Be [n 7] |
4 | 10 | 14.04289(14) | 4.84(10) ms | β−, n (81.0%) | 13 B |
0+ | ||
β− (14.0%) | 14 B | ||||||||
β−, 2n (5.0%) | 12 B | ||||||||
15 Be |
4 | 11 | 15.05346(54)# | 7.86×10−22 s [0.58 MeV] |
n | 14 Be |
(5/2+) | ||
16 Be |
4 | 12 | 16.06192(54)# | 5.7×10−22 s [0.8 MeV] |
2n | 14 Be |
0+ |
- ↑ Abbreviations:
EC: Electron capture - ↑ Bold for stable isotopes
- ↑ Produced in Big Bang nucleosynthesis, but not primordial, as it all quickly decayed to 7Li
- 1 2 cosmogenic nuclide
- ↑ Intermediate product of triple alpha process in stellar nucleosynthesis as part of the path producing 12C
- ↑ Has 1 halo neutron
- ↑ Has 4 halo neutrons
Notes
- Values marked # are not purely derived from experimental data, but at least partly from systematic trends. Spins with weak assignment arguments are enclosed in parentheses.
Decay Chains
Most isotopes of beryllium within the proton/neutron drip lines decay via beta decay and/or a combination of beta decay and alpha decay or neutron emission. However, 7Be decays only via electron capture, a phenomenon to which its unusually long half-life may be attributed. Also anomalous is 8Be, which decays via alpha decay to 4He. This alpha decay is often considered fission, which would be able to account for its extremely short half-life.
See also
References
- ↑ Meija, J.; et al. (2016). "Atomic weights of the elements 2013 (IUPAC Technical Report)". Pure Appl. Chem. 88 (3): 265–91. doi:10.1515/pac-2015-0305.
- ↑ "Universal Nuclide Chart". nucleonica. (Registration required (help)).
- Isotope masses from:
- G. Audi; A. H. Wapstra; C. Thibault; J. Blachot; O. Bersillon (2003). "The NUBASE evaluation of nuclear and decay properties" (PDF). Nuclear Physics A. 729: 3–128. Bibcode:2003NuPhA.729....3A. doi:10.1016/j.nuclphysa.2003.11.001. Archived from the original (PDF) on 2008-09-23.
- Isotopic compositions and standard atomic masses from:
- J. R. de Laeter; J. K. Böhlke; P. De Bièvre; H. Hidaka; H. S. Peiser; K. J. R. Rosman; P. D. P. Taylor (2003). "Atomic weights of the elements. Review 2000 (IUPAC Technical Report)". Pure and Applied Chemistry. 75 (6): 683–800. doi:10.1351/pac200375060683.
- M. E. Wieser (2006). "Atomic weights of the elements 2005 (IUPAC Technical Report)". Pure and Applied Chemistry. 78 (11): 2051–2066. doi:10.1351/pac200678112051. Lay summary.
- Half-life, spin, and isomer data selected from the following sources. See editing notes on this article's talk page.
- G. Audi; A. H. Wapstra; C. Thibault; J. Blachot; O. Bersillon (2003). "The NUBASE evaluation of nuclear and decay properties" (PDF). Nuclear Physics A. 729: 3–128. Bibcode:2003NuPhA.729....3A. doi:10.1016/j.nuclphysa.2003.11.001. Archived from the original (PDF) on 2008-09-23.
- National Nuclear Data Center, Brookhaven National Laboratory. Information extracted from the NuDat 2.1 database (retrieved Sept. 2005).
- N. E. Holden (2004). "Table of the Isotopes". In D. R. Lide. CRC Handbook of Chemistry and Physics (85th ed.). CRC Press. Section 11. ISBN 978-0-8493-0485-9.
Isotopes of lithium | Isotopes of beryllium | Isotopes of boron |
Table of nuclides |