Isotopes of hydrogen

Template:Short description Template:Infobox hydrogen isotopes

Hydrogen (₁H) has three naturally occurring isotopes: ¹H, ²H, and ³H. ¹H and ²H are stable, while ³H has a half-life of Template:Val years.^[1]Template:Refn Heavier isotopes also exist; all are synthetic and have a half-life of less than 1 zeptosecond (10⁻²¹ s).^[2][3] Of these, ⁵H is the least stable, while ⁷H is the most.

Hydrogen is the only element whose isotopes have different names that remain in common use today: ²H is deuterium^[4] and ³H is tritium.^[5] The symbols D and T are sometimes used for deuterium and tritium; IUPAC (International Union of Pure and Applied Chemistry) accepts said symbols, but recommends the standard isotopic symbols ²H and ³H, to avoid confusion in alphabetic sorting of chemical formulas.^{[6] 1}H, with no neutrons, may be called protium to disambiguate.^[7] (During the early study of radioactivity, some other heavy radioisotopes were given names, but such names are rarely used today.)

File:Hydrogen Deuterium Tritium Nuclei Schmatic-en.svg

List of isotopes

Note: "y" means year, but "ys" means yoctosecond (10⁻²⁴ second). Template:Isotopes table |- | ¹H | 1 | 0 | Template:Val | colspan=3 align=center|Stable^{[n 1][n 2]} | 1/2+ | colspan="2" style="text-align:center" | [[[:Template:Val]], Template:Val]^[8] | Protium |- | ²H (D)^{[n 3][n 4]} | 1 | 1 | Template:Val | colspan=3 align=center |Stable | 1+ | colspan="2" style="text-align:center" | [[[:Template:Val]], Template:Val]^[8] | Deuterium |- | ³H (T)Template:Refn | 1 | 2 | Template:Val | Template:Val | β⁻ | ³He | 1/2+ | Trace^{[n 5]} | | Tritium

|- | ⁴H | 1 | 3 | Template:Val | Template:Val | n | ³H | 2− | | |- | ⁵H | 1 | 4 | Template:Val | Template:Val | 2n | ³H | (1/2+) | | |- | ⁶H | 1 | 5 | Template:Val | Template:Val | | | 2−# | | |- | ⁷H | 1 | 6 | Template:Val# | Template:Val | | | 1/2+# | | Template:Isotopes table/footer

Hydrogen-1 (protium)

File:H-1 atom.png

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¹H (atomic mass Template:Val) is the most common hydrogen isotope, with an abundance of >99.98%. Its nucleus consists of only a single proton, so it has the formal name protium.

The proton has never been observed to decay, so ¹H is considered stable. It is the only stable nuclide with no neutrons. Some Grand Unified Theories proposed in the 1970s predict that proton decay can occur with a half-life between Template:Val and Template:Val years.^[9] If so, then ¹H (and all nuclei now believed to be stable) are only observationally stable. As of 2018, experiments have shown that the mean lifetime of the proton is >Template:Val years.^[10]

Hydrogen-2 (deuterium)

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File:H-2 atom.png

Deuterium, ²H (atomic mass Template:Val), the other stable hydrogen isotope, has one proton and one neutron in its nucleus, called a deuteron. ²H comprises 26–184 ppm (by population, not mass) of hydrogen on Earth; the lower number tends to be found in hydrogen gas and higher enrichment (150 ppm) is typical of seawater. Deuterium on Earth has been enriched with respect to its initial concentration in the Big Bang and outer Solar System (≈27 ppm, atom fraction) and older parts of the Milky Way (≈23 ppm). Presumably the differential concentration of deuterium in the inner Solar System is due to the lower volatility of deuterium gas and compounds, enriching deuterium fractions in comets and planets exposed to significant heat from the Sun over billions of years of Solar System evolution.

Deuterium is not radioactive, and is not a significant toxicity hazard. Water enriched in ²H is called heavy water. Deuterium and its compounds are used as a non-radioactive label in chemical experiments and in solvents for ¹H-nuclear magnetic resonance spectroscopy. Heavy water is used as a neutron moderator and coolant for nuclear reactors. Deuterium is also a potential fuel for commercial nuclear fusion.

Hydrogen-3 (tritium)

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File:H-3 atom.png

Tritium, ³H (atomic mass Template:Val), has one proton and two neutrons in its nucleus (triton). It is radioactive, β⁻ decaying into helium-3 with half-life Template:Val.Template:Refn^[1] Traces of ³H occur naturally due to cosmic rays interacting with atmospheric gases. ³H has also been released in nuclear tests. It is used in fusion bombs, as a tracer in isotope geochemistry, and in self-powered lighting devices.

The most common way to produce ³H is to bombard a natural isotope of lithium, ⁶Li, with neutrons in a nuclear reactor.

Tritium can be used in chemical and biological labeling experiments as a radioactive tracer.^[11][12] Deuterium–tritium fusion uses ²H and ³H as its main reactants, giving energy through the loss of mass when the two nuclei collide and fuse at high temperatures.

Hydrogen-4

⁴H (atomic mass Template:Val), with one proton and three neutrons, is a highly unstable isotope. It has been synthesized in the laboratory by bombarding tritium with fast-moving deuterons;^[13] the triton captured a neutron from the deuteron. The presence of ⁴H was deduced by detecting the emitted protons. It decays by neutron emission into ³H with a half-life of Template:Val (or Template:Val).

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Hydrogen-5

⁵H (atomic mass Template:Val), with one proton and four neutrons, is highly unstable. It has been synthesized in the lab by bombarding tritium with fast-moving tritons;^[13][14] one triton captures two neutrons from the other, becoming a nucleus with one proton and four neutrons. The remaining proton may be detected, and the existence of ⁵H deduced. It decays by double neutron emission into ³H and has a half-life of Template:Val (Template:Val) – the shortest half-life of any known nuclide.^[1]

Hydrogen-6

⁶H (atomic mass Template:Val) has one proton and five neutrons. It has a half-life of Template:Val (Template:Val). In 2025, ⁶H was produced using an 855MeV electron beam impinging upon on a ⁷Li target.^[15]

Hydrogen-7

⁷H (atomic mass Template:Val) has one proton and six neutrons. It was first synthesized in 2003 by a group of Russian, Japanese and French scientists at Riken's Radioactive Isotope Beam Factory by bombarding hydrogen with helium-8 atoms; all six of the helium-8's neutrons were donated to the hydrogen nucleus. The two remaining protons were detected by the "Riken telescope", a device made of several layers of sensors, positioned behind the target of the RI Beam cyclotron.^{[3] 7}H has a half-life of Template:Val (Template:Val).^[1]

Decay chains

⁴H and ⁵H decay directly to ³H, which then decays to stable ³He. Decay of the heaviest isotopes, ⁶H and ⁷H, has not been experimentally observed.Template:NUBASE2020

${\displaystyle \begin{array}{r}\\ {\phantom{A}}_{\phantom{1}}^{\phantom{3}}{\phantom{A}}_{\phantom{2}1}^{\phantom{2}3}\mathrm{H}& \stackrel{12.32\mathrm{y}}{\to }& {}^{\mathrm{3}}{}_{\mathrm{2}}\mathrm{H}\mathrm{e}+\mathrm{e}{\phantom{A}}^{-}\\ {\phantom{A}}_{\phantom{1}}^{\phantom{4}}{\phantom{A}}_{\phantom{2}1}^{\phantom{2}4}\mathrm{H}& \stackrel{139\mathrm{y}\mathrm{s}}{\to }& {}^{\mathrm{3}}{}_{\mathrm{1}}\mathrm{H}+{}^{\mathrm{1}}{}_{\mathrm{0}}\mathrm{n}\\ {\phantom{A}}_{\phantom{1}}^{\phantom{5}}{\phantom{A}}_{\phantom{2}1}^{\phantom{2}5}\mathrm{H}& \stackrel{86\mathrm{y}\mathrm{s}}{\to }& {}^{\mathrm{3}}{}_{\mathrm{1}}\mathrm{H}+2_{\mathrm{0}}^{\mathrm{1}}\mathrm{n}\\ \end{array}}$

Decay times are in yoctoseconds (Template:Val) for all these isotopes except ³H, which is in years.

See also

• Hydrogen atom
• Hydrogen isotope biogeochemistry
• Hydrogen-4.1 (Muonic helium)
• Muonium – acts like an exotic light isotope of hydrogen
• Template:Sister-inline

Notes

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References

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Further reading

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