Isotopes of beryllium

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Beryllium (Be) has 12 known isotopes, but only one of these isotopes (9Be) 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. 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 10Be with a half-life of 1.39 million years and 7Be with a half-life of 53.22 days. All other radioisotopes have half-lives under 13.85 seconds, most under 20 milliseconds. The least stable isotope is 6Be, with a half-life measured as 5.03 zeptoseconds.

The natural light-element ratio of equal protons and neutron numbers is prevented in beryllium by the extreme instability of 8Be toward alpha decay, which is favored due to the extremely tight binding of 4He nuclei. The half-life for the decay of 8Be 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, 10Be, 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 9Be 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 7Be, with a half-life of 53 days, and 10Be are both cosmogenic nuclides because they are made on a recent timescale in the solar system by spallation, like 14C. 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 7Be is transferred from the air to the ground is controlled in part by the weather. 7Be decay in the sun is one of the sources of solar neutrinos, and the first type ever detected using the Homestake experiment. Presence of 7Be 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 7Be.

The rate of delivery of 7Be from the air to the ground in Japan (source M. Yamamoto et al., Journal of Environmental Radioactivity, 2006, 86, 110–131)

Table[edit]

nuclide
symbol
Z(p) N(n)  
isotopic mass (u)
 
half-life decay
mode(s)[1][n 1]
daughter
isotope(s)[n 2]
nuclear
spin
representative
isotopic
composition
(mole fraction)
range of natural
variation
(mole fraction)
5Be 4 1 5.04079(429)# p 4Li (1/2+)#
6Be 4 2 6.019726(6) 5.0(3)×10−21 s
[0.092(6) MeV]
2p 4He 0+
7Be[n 3] 4 3 7.01692983(11) 53.22(6) d EC 7Li 3/2- Trace[n 4]
8Be[n 5] 4 4 8.00530510(4) 6.7(17)×10−17 s
[6.8(17) eV][citation needed]
α 4He 0+
9Be 4 5 9.0121822(4) Stable 3/2- 1.0000
10Be 4 6 10.0135338(4) 1.39×106 years β 10B 0+ Trace[n 4]
11Be[n 6] 4 7 11.021658(7) 13.81(8) s β (97.1%) 11B 1/2+
β, α (2.9%) 7Li
12Be 4 8 12.026921(16) 21.49(3) ms β (99.48%) 12B 0+
β, n (0.52%) 11B
13Be 4 9 13.03569(8) 2.7x10-21 s n 12Be 1/2+
14Be[n 7] 4 10 14.04289(14) 4.84(10) ms β, n (81.0%) 13B 0+
β (14.0%) 14B
β, 2n (5.0%) 12B
15Be 4 11 15.05346(54)# <200 ns
16Be 4 12 16.06192(54)# <200 ns 2n 14Be 0+
17Be 4 13
  1. ^ Abbreviations:
    EC: Electron capture
  2. ^ Bold for stable isotopes
  3. ^ Produced in Big Bang nucleosynthesis, but not primordial, as it all quickly decayed to 7Li
  4. ^ a b cosmogenic nuclide
  5. ^ Intermediate product of triple alpha process in stellar nucleosynthesis as part of the path producing 12C
  6. ^ Has 1 halo neutron
  7. ^ Has 4 halo neutrons

Notes[edit]

  • 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[edit]

Most isotopes of beryllium within the proton/neutron drip lines decay via beta decay and/or a combonation of beta decay and alpha decay or neutron emmission. However, 7Be decays only via electron capture, a phenomena 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.

\mathrm{{}^{5}_{4}Be}\ \xrightarrow{\ \mathrm{Unknown}}\ \mathrm{{}^{4}_{3}Li} + \mathrm{{}^{1}_{1}H}
\mathrm{{}^{6}_{4}Be}\ \xrightarrow{\ \mathrm{5 zs}}\ \mathrm{{}^{4}_{2}He} + \mathrm{2{}^{1}_{1}H}
\mathrm{{}^{7}_{4}Be} + \mathrm{e{}^{-}_{}}\ \xrightarrow{\ \mathrm{53.22 d}}\ \mathrm{{}^{7}_{3}Li}
\mathrm{{}^{8}_{4}Be}\ \xrightarrow{\ \mathrm{67 as}}\ \mathrm{2{}^{4}_{2}He}
\mathrm{{}^{10}_{4}Be}\ \xrightarrow{\ \mathrm{1.39 Ma}}\ \mathrm{{}^{10}_{5}B} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{11}_{4}Be}\ \xrightarrow{\ \mathrm{13.81 s}}\ \mathrm{{}^{11}_{5}B} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{11}_{4}Be}\ \xrightarrow{\ \mathrm{13.81 s}}\ \mathrm{{}^{7}_{3}Li} + \mathrm{{}^{4}_{2}He} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{12}_{4}Be}\ \xrightarrow{\ \mathrm{21.49 ms}}\ \mathrm{{}^{12}_{5}B} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{12}_{4}Be}\ \xrightarrow{\ \mathrm{21.49 ms}}\ \mathrm{{}^{11}_{5}B} + \mathrm{{}^{1}_{0}n} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{13}_{4}Be}\ \xrightarrow{\ \mathrm{2.7 zs}}\ \mathrm{{}^{12}_{4}Be} + \mathrm{{}^{1}_{0}n}
\mathrm{{}^{14}_{4}Be}\ \xrightarrow{\ \mathrm{4.84 ms}}\ \mathrm{{}^{13}_{5}B} + \mathrm{{}^{1}_{0}n} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{14}_{4}Be}\ \xrightarrow{\ \mathrm{4.84 ms}}\ \mathrm{{}^{14}_{5}B} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{14}_{4}Be}\ \xrightarrow{\ \mathrm{4.84 ms}}\ \mathrm{{}^{12}_{5}B} + \mathrm{2{}^{1}_{0}n} + \mathrm{e{}^{-}_{}}
\mathrm{{}^{16}_{4}Be}\ \xrightarrow{\ \mathrm{<200 ns}}\ \mathrm{{}^{14}_{4}Be} + \mathrm{2{}^{1}_{0}n}

See also[edit]


References[edit]

  1. ^ http://www.nucleonica.net/unc.aspx


Isotopes of lithium Isotopes of beryllium Isotopes of boron
Table of nuclides