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Isotopes of gold

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Isotopes of gold (79Au)
Main isotopes Decay
abun­dance half-life (t1/2) mode pro­duct
Au synth 186.01 d ε Pt
Au synth 6.165 d β Pt
β Hg
Au 100% stable
Au synth 2.69464 d β Hg
Au synth 3.139 d β Hg
Standard atomic weight Ar°(Au)
  • 196.966570±0.000004
  • 196.97±0.01 (abridged)

Gold (79Au) has one stable isotope, Au, and 40 radioisotopes, with Au being the most stable with a half-life of 186 days. Gold is currently considered the heaviest monoisotopic element. Bismuth formerly held that distinction until alpha-decay of the Bi isotope was observed. All isotopes of gold are either radioactive or, in the case of Au, observationally stable, meaning that Au is predicted to be radioactive but no actual decay has been observed.

List of isotopes


Nuclide
 Z N Isotopic mass (Da)
 Half-life
 Decay
mode
 Daughter
isotope
 Spin and
parity
 Isotopic
abundance
Excitation energy
Au 79 91 169.99602(22)# 286+50
−40 μs 		p (89%) Pt (2)−
α (11%) Ir
Au 282(10) keV 617+50
−40 μs 		p (58%) Pt (9)+
α (42%) Ir
Au 79 92 170.991882(22) 22+3
−2 μs 		p Pt 1/2+
α? Ir
Au 258(13) keV 1.09(3) ms α (66%) Ir 11/2−
p (34%) Pt
Au 79 93 171.99000(6) 28(4) ms α (98%) Ir (2)−
p (2%) Pt
β Pt
Au 160(250) keV 11.0(10) ms α Ir (9,10)+
p? Pt
Au 79 94 172.986224(24) 25.5(8) ms α (86%) Ir (1/2+)
β (14%) Pt
Au 214(21) keV 12.2(1) ms α (89%) Ir (11/2−)
β (11%) Pt
Au 79 95 173.98491(11)# 139(3) ms α (90%) Ir (3−)
β (10%) Pt
Au 130(50)# keV 162(2) ms α? Ir (9+)
β? Pt
Au 79 96 174.98132(4) 200(3) ms α (88%) Ir 1/2+
β (12%) Pt
Au 164(11)# keV 136(1) ms α (75%) Ir (11/2−)
β (25%) Pt
Au 79 97 175.98012(4) 1.05(1) s α (75%) Ir (3−,4−)
β (25%) Pt
Au 139(13) keV 1.36(2) s α? Ir (8+,9+)
β? Pt
Au 79 98 176.976870(11) 1.501(20) s β (60%) Pt 1/2+
α (40%) Ir
Au 190(7) keV 1.193(13) s α (60%) Ir 11/2−
β (40%) Pt
Au 79 99 177.976057(11) 3.4(5) s β (84%) Pt (2+,3−)
α (16%) Ir
Au 50.3(2) keV 300(10) ns IT Au (4−,5+)
Au 186(14) keV 2.7(5) s β (82%) Pt (7+,8−)
α (18%) Ir
Au 243(14) keV 390(10) ns IT Au (5+,6)
Au 79 100 178.973174(13) 7.1(3) s β (78.0%) Pt 1/2+
α (22.0%) Ir
Au 89.5(3) keV 327(5) ns IT Au (3/2−)
Au 79 101 179.9724898(51) 7.9(3) s β (99.42%) Pt (1+)
α (0.58%) Ir
Au 79 102 180.970079(21) 13.7(14) s β (97.3%) Pt (5/2−)
α (2.7%) Ir
Au 79 103 181.969614(20) 15.5(4) s β (99.87%) Pt (2+)
α (0.13%) Ir
Au 79 104 182.967588(10) 42.8(10) s β (99.45%) Pt 5/2−
α (0.55%) Ir
Au 73.10(1) keV >1 μs IT Au (1/2)+
Au 79 105 183.967452(24) 20.6(9) s β (99.99%) Pt 5+
α (0.013%) Ir
Au 68.46(4) keV 47.6(14) s β (70%) Pt 2+
IT (30%) Au
α (0.013%) Ir
Au 79 106 184.9657989(28) 4.25(6) min β (99.74%) Pt 5/2−
α (0.26%) Ir
Au 50(50)# keV 6.8(3) min β Pt 1/2+#
IT? Au
Au 79 107 185.965953(23) 10.7(5) min β Pt 3−
α (8×10%) Ir
Au 227.77(7) keV 110(10) ns IT Au 2+
Au 79 108 186.964542(24) 8.3(2) min β Pt 1/2+
α? Ir
Au 120.33(14) keV 2.3(1) s IT Au 9/2−
Au 79 109 187.9652480(29) 8.84(6) min β Pt 1−
Au 79 110 188.963948(22) 28.7(4) min β Pt 1/2+
α? (<3×10%) Ir
Au 247.25(16) keV 4.59(11) min β Pt 11/2−
IT? Au
Au 325.12(16) keV 190(15) ns IT Au 9/2−
Au 2554.8(8) keV 242(10) ns IT Au 31/2+
Au 79 111 189.964752(4) 42.8(10) min β Pt 1−
α? (<10%) Ir
Au 200(150)# keV 125(20) ms IT Au 11−#
β? Pt
Au 79 112 190.963716(5) 3.18(8) h β Pt 3/2+
Au 266.2(7) keV 920(110) ms IT Au 11/2−
Au 2489.6(9) keV 402(20) ns IT Au 31/2+
Au 79 113 191.964818(17) 4.94(9) h β Pt 1−
Au 135.41(25) keV 29 ms IT Au 5+
Au 431.6(5) keV 160(20) ms IT Au 11−
Au 79 114 192.964138(9) 17.65(15) h β Pt 3/2+
Au 290.20(4) keV 3.9(3) s IT (99.97%) Au 11/2−
β (0.03%) Pt
Au 2486.7(6) keV 150(50) ns IT Au 31/2+
Au 79 115 193.9654191(23) 38.02(10) h β Pt 1−
Au 107.4(5) keV 600(8) ms IT Au 5+
Au 475.8(6) keV 420(10) ms IT Au 11−
Au 79 116 194.9650378(12) 186.01(6) d EC Pt 3/2+
Au 318.58(4) keV 30.5(2) s IT Au 11/2−
Au 2501(20)# keV 12.89(21) μs IT Au 31/2(−)
Au 79 117 195.966571(3) 6.165(11) d β (93.0%) Pt 2−
β (7.0%) Hg
Au 84.656(20) keV 8.1(2) s IT Au 5+
Au 595.66(4) keV 9.603(22) h IT Au 12−
Au 79 118 196.9665701(6) Observationally Stable 3/2+ 1.0000
Au 409.15(8) keV 7.73(6) s IT Au 11/2−
Au 2532.5(10) keV 150(5) ns IT Au 27/2+#
Au 79 119 197.9682437(6) 2.69464(14) d β Hg 2−
Au 312.2227(20) keV 124(4) ns IT Au 5+
Au 811.9(15) keV 2.272(16) d IT Au 12−
Au 79 120 198.9687666(6) 3.139(7) d β Hg 3/2+
Au 548.9405(21) keV 440(30) μs IT Au 11/2−
Au 79 121 199.970757(29) 48.4(3) min β Hg (1−)
Au 1010(40) keV 18.7(5) h β (84%) Hg 12−
IT (16%) Au
Au 79 122 200.971658(3) 26.0(8) min β Hg 3/2+
Au 594(5) keV 730(630) μs IT Au 11/2-
Au 1610(5) keV 5.6(24) μs IT Au 19/2+#
Au 79 123 201.973856(25) 28.4(12) s β Hg (1−)
Au 79 124 202.9751545(33) 60(6) s β Hg 3/2+
Au 641(3) keV 140(44) μs IT Au 11/2−#
Au 79 125 203.97811(22)# 38.3(13) s β Hg (2−)
Au 3816(500)# keV 2.1(3) μs IT Au 16+#
Au 79 126 204.98006(22)# 32.0(14) s β Hg 3/2+#
Au 907(5) keV 6(2) s IT? Au 11/2−#
β? Hg
Au 2849.7(4) keV 163(5) ns IT Au 19/2+#
Au 79 127 205.98477(32)# 47(11) s β Hg 6+#
Au 79 128 206.98858(32)# 3# s
 β? Hg 3/2+#
β, n? Hg
Au 79 129 207.99366(32)# 20# s
 β? Hg 6+#
β, n? Hg
Au 79 130 208.99761(43)# 1# s
 β? Hg 3/2+#
β, n? Hg
Au 79 131 210.00288(43)# 10# s
 β? Hg 6+#
β, n? Hg
This table header & footer:
  1. Au – Excited nuclear isomer.
  2. ( ) – Uncertainty (1σ) is given in concise form in parentheses after the corresponding last digits.
  3. # – Atomic mass marked #: value and uncertainty derived not from purely experimental data, but at least partly from trends from the Mass Surface (TMS).
  4. ^ # – Values marked # are not purely derived from experimental data, but at least partly from trends of neighboring nuclides (TNN).
  5. Modes of decay:
    EC: Electron capture
    IT: Isomeric transition


    p: Proton emission
  6. Bold italics symbol as daughter – Daughter product is nearly stable.
  7. Bold symbol as daughter – Daughter product is stable.
  8. ( ) spin value – Indicates spin with weak assignment arguments.
  9. ^ Order of ground state and isomer is uncertain.
  10. Theoretically capable of α decay to Ir
  11. Potential material for salted bombs
  12. Theoretically predicted to undergo α decay to Ir

References

  1. ^ Kondev, F. G.; Wang, M.; Huang, W. J.; Naimi, S.; Audi, G. (2021). "The NUBASE2020 evaluation of nuclear properties" (PDF). Chinese Physics C. 45 (3): 030001. doi:10.1088/1674-1137/abddae.
  2. "Standard Atomic Weights: Gold". CIAAW. 2017.
  3. Prohaska, Thomas; Irrgeher, Johanna; Benefield, Jacqueline; Böhlke, John K.; Chesson, Lesley A.; Coplen, Tyler B.; Ding, Tiping; Dunn, Philip J. H.; Gröning, Manfred; Holden, Norman E.; Meijer, Harro A. J. (2022-05-04). "Standard atomic weights of the elements 2021 (IUPAC Technical Report)". Pure and Applied Chemistry. doi:10.1515/pac-2019-0603. ISSN 1365-3075.
  4. Belli, P.; Bernabei, R.; Danevich, F. A.; et al. (2019). "Experimental searches for rare alpha and beta decays". European Physical Journal A. 55 (8): 140–1–140–7. arXiv:1908.11458. Bibcode:2019EPJA...55..140B. doi:10.1140/epja/i2019-12823-2. ISSN 1434-601X. S2CID 201664098.
  5. Wang, Meng; Huang, W.J.; Kondev, F.G.; Audi, G.; Naimi, S. (2021). "The AME 2020 atomic mass evaluation (II). Tables, graphs and references*". Chinese Physics C. 45 (3): 030003. doi:10.1088/1674-1137/abddaf.
  6. ^ Kettunen, H.; Enqvist, T.; Grahn, T.; Greenlees, P. T.; Jones, P.; Julin, R.; Juutinen, S.; Keenan, A.; Kuusiniemi, P.; Leino, M.; Leppänen, A.-P.; Nieminen, P.; Pakarinen, J.; Rahkila, P.; Uusitalo, J. (28 May 2004). "Decay studies of Au 170 , 171 , Hg 171 – 173 , and Tl 176". Physical Review C. 69 (5): 054323. doi:10.1103/PhysRevC.69.054323. ISSN 0556-2813. Retrieved 11 June 2023.
Isotopes of the chemical elements
Group 1 2   3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Period Hydrogen and
alkali metals 		Alkaline
earth metals 		Pnicto­gens Chal­co­gens Halo­gens Noble gases
Isotopes § ListH1 Isotopes § ListHe2
Isotopes § ListLi3 Isotopes § ListBe4 Isotopes § ListB5 Isotopes § ListC6 Isotopes § ListN7 Isotopes § ListO8 Isotopes § ListF9 Isotopes § ListNe10
Isotopes § ListNa11 Isotopes § ListMg12 Isotopes § ListAl13 Isotopes § ListSi14 Isotopes § ListP15 Isotopes § ListS16 Isotopes § ListCl17 Isotopes § ListAr18
Isotopes § ListK19 Isotopes § ListCa20 Isotopes § ListSc21 Isotopes § ListTi22 Isotopes § ListV23 Isotopes § ListCr24 Isotopes § ListMn25 Isotopes § ListFe26 Isotopes § ListCo27 Isotopes § ListNi28 Isotopes § ListCu29 Isotopes § ListZn30 Isotopes § ListGa31 Isotopes § ListGe32 Isotopes § ListAs33 Isotopes § ListSe34 Isotopes § ListBr35 Isotopes § ListKr36
Isotopes § ListRb37 Isotopes § ListSr38 Isotopes § ListY39 Isotopes § ListZr40 Isotopes § ListNb41 Isotopes § ListMo42 Isotopes § ListTc43 Isotopes § ListRu44 Isotopes § ListRh45 Isotopes § ListPd46 Isotopes § ListAg47 Isotopes § ListCd48 Isotopes § ListIn49 Isotopes § ListSn50 Isotopes § ListSb51 Isotopes § ListTe52 Isotopes § ListI53 Isotopes § ListXe54
Isotopes § ListCs55 Isotopes § ListBa56 1 asterisk Isotopes § ListLu71 Isotopes § ListHf72 Isotopes § ListTa73 Isotopes § ListW74 Isotopes § ListRe75 Isotopes § ListOs76 Isotopes § ListIr77 Isotopes § ListPt78 Isotopes § ListAu79 Isotopes § ListHg80 Isotopes § ListTl81 Isotopes § ListPb82 Isotopes § ListBi83 Isotopes § ListPo84 Isotopes § ListAt85 Isotopes § ListRn86
Isotopes § ListFr87 Isotopes § ListRa88 1 asterisk Isotopes § ListLr103 Isotopes § ListRf104 Isotopes § ListDb105 Isotopes § ListSg106 Isotopes § ListBh107 Isotopes § ListHs108 Isotopes § ListMt109 Isotopes § ListDs110 Isotopes § ListRg111 Isotopes § ListCn112 Isotopes § ListNh113 Isotopes § ListFl114 Isotopes § ListMc115 Isotopes § ListLv116 Isotopes § ListTs117 Isotopes § ListOg118
Isotopes § ListUue119 Isotopes § ListUbn120
1 asterisk Isotopes § ListLa57 Isotopes § ListCe58 Isotopes § ListPr59 Isotopes § ListNd60 Isotopes § ListPm61 Isotopes § ListSm62 Isotopes § ListEu63 Isotopes § ListGd64 Isotopes § ListTb65 Isotopes § ListDy66 Isotopes § ListHo67 Isotopes § ListEr68 Isotopes § ListTm69 Isotopes § ListYb70  
1 asterisk Isotopes § ListAc89 Isotopes § ListTh90 Isotopes § ListPa91 Isotopes § ListU92 Isotopes § ListNp93 Isotopes § ListPu94 Isotopes § ListAm95 Isotopes § ListCm96 Isotopes § ListBk97 Isotopes § ListCf98 Isotopes § ListEs99 Isotopes § ListFm100 Isotopes § ListMd101 Isotopes § ListNo102
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