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Isotopes of indium

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(Redirected from Indium-100)

Isotopes of indium (49In)
Main isotopes Decay
abun­dance half-life (t1/2) mode pro­duct
In synth 2.8 d ε Cd
In 4.28% stable
In 95.7% 4.41×10 y β Sn
Standard atomic weight Ar°(In)

Indium (49In) consists of two primordial nuclides, with the most common (~ 95.7%) nuclide (In) being measurably though weakly radioactive. Its spin-forbidden decay has a half-life of 4.41×10 years, much longer than the currently accepted age of the Universe.

The stable isotope In is only 4.3% of naturally occurring indium. Among elements with a known stable isotope, only tellurium and rhenium similarly occur with a stable isotope in lower abundance than the long-lived radioactive isotope. Other than In, the longest-lived radioisotope is In, with a half-life of 2.8047 days. All other radioisotopes have half-lives less than a day. This element also has 47 isomers, the longest-lived being In, with a half-life of 49.51 days. All other meta-states have half-lives less than a day, most less than an hour, and many measured in milliseconds or less.

Indium-111 is used medically in nuclear imaging, as a radiotracer nuclide tag for gamma camera localization of protein radiopharmaceuticals, such as In-111-labeled octreotide, which binds to receptors on certain endocrine tumors (Octreoscan). Indium-111 is also used in indium white blood cell scans, which use nuclear medical techniques to search for hidden infections.

Several proton-rich isotopes of indium (including indium-99) have been used to measure the mass of the doubly-magic isotope tin-100.

List of isotopes


Nuclide
 Z N Isotopic mass (Da)
 Half-life
 Decay
mode
 Daughter
isotope
 Spin and
parity
 Natural abundance (mole fraction)
Excitation energy Normal proportion Range of variation
In 49 47 95.95911(54)# 1# ms
 β? Cd 9/2+#
p? Cd
In 49 48 96.94913(43)# 36(6) ms β (97.7%) Cd 9/2+#
β, p (2.3%) Ag
p? Cd
In 400(100)# keV 0.12(7) ms p? Cd 1/2−#
In 49 49 97.94213(33)# 30(1) ms β (>99.87%) Cd (0+)
β, p (<0.13%) Ag
In 820(730) keV 890(20) ms β (56%) Cd (9+)
β, p (44%) Ag
In 49 50 98.93411(32)# 3.11(6) s β (99.71%) Cd 9/2+#
β, p (0.29%) Ag
In 49 51 99.9311019(24) 5.62(6) s β (98.34%) Cd 6+#
β, p (1.66%) Ag
In 49 52 100.926414(13) 15.1(11) s β (>98.3%) Cd (9/2+)
β, p (<1.7%) Ag
In 640(40) keV 10# s β? Cd 1/2−#
IT? In
In 49 53 101.9241059(49) 23.3(1) s β (99.99%) Cd (6+)
β, p (0.0093%) Ag
In 49 54 102.9198788(96) 60(1) s β Cd (9/2+)
In 631.7(1) keV 34(2) s β (67%) Cd (1/2−)
IT (33%) In
In 49 55 103.9182145(62) 1.80(3) min β Cd (5+)
In 93.48(10) keV 15.7(5) s IT (80%) In (3+)
β (20%) Cd
In 49 56 104.914502(11) 5.07(7) min β Cd 9/2+
In 674.09(25) keV 48(6) s IT In (1/2)−
β? Cd
In 49 57 105.9134636(13) 6.2(1) min β Cd 7+
In 28.6(3) keV 5.2(1) min β Cd (2)+
In 49 58 106.910287(10) 32.4(3) min β Cd 9/2+
In 678.5(3) keV 50.4(6) s IT In 1/2−
In 49 59 107.9096937(93) 58.0(12) min β Cd 7+
In 29.75(5) keV 39.6(7) min β Cd 2+
In 49 60 108.9071497(43) 4.159(10) h β Cd 9/2+
In 649.79(10) keV 1.34(6) min IT In 1/2−
In 2101.86(11) keV 210.0(9) ms IT In 19/2+
In 49 61 109.907171(12) 4.92(8) h β Cd 7+
In 62.08(4) keV 69.1(5) min β Cd 2+
In 49 62 110.9051072(37) 2.8048(1) d EC Cd 9/2+
In 536.99(7) keV 7.7(2) min IT In 1/2−
In 49 63 111.9055387(46) 14.88(15) min β (62%) Cd 1+
β (38%) Sn
In 156.592(25) keV 20.67(8) min IT In 4+
In 350.80(5) keV 690(50) ns IT In (7)+
In 613.82(6) keV 2.81(3) μs IT In 8−
In 49 64 112.90406045(20) Stable 9/2+ 0.04281(52)
In 391.699(3) keV 1.6579(4) h IT In 1/2−
In 49 65 113.90491641(32) 71.9(1) s β (99.50%) Sn 1+
β (0.50%) Cd
In 190.2682(8) keV 49.51(1) d IT (96.75%) In 5+
β (3.25%) Cd
In 501.948(3) keV 43.1(6) ms IT (96.75%) In 8−
β (3.25%) Cd
In 49 66 114.903878772(12) 4.41(25)×10 a β Sn 9/2+ 0.95719(52)
In 336.244(17) keV 4.486(4) h IT (95.0%) In 1/2−
β (5.0%) Sn
In 49 67 115.90525999(24) 14.10(3) s β (99.98%) Sn 1+
EC (0.0237%) Cd
In 127.267(6) keV 54.29(17) min β Sn 5+
In 289.660(6) keV 2.18(4) s IT In 8−
In 49 68 116.9045157(52) 43.2(3) min β Sn 9/2+
In 315.303(11) keV 116.2(3) min β (52.9%) Sn 1/2−
IT (47.1%) In
In 49 69 117.9063567(83) 5.0(5) s β Sn 1+
In 100(50)# keV 4.364(7) min β Sn 5+
In 240(50)# keV 8.5(3) s IT (98.6%) In 8−
β (1.4%) Sn
In 49 70 118.9058516(78) 2.4(1) min β Sn 9/2+
In 311.37(3) keV 18.0(3) min β (97.4%) Sn 1/2−
IT (2.6%) In
In 654.27(7) keV 130(15) ns IT In (3/2)+
In 2656.9(18) keV 265(10) ns IT In (25/2+)
In 49 71 119.907967(43) 3.08(8) s β Sn 1+
In 50(60)# keV 46.2(8) s β Sn 5+
In 300(200)# keV 47.3(5) s β Sn 8−
In 49 72 120.907853(29) 23.1(6) s β Sn 9/2+
In 313.68(7) keV 3.88(10) min β (98.8%) Sn 1/2−
IT (1.2%) In
In 2550(100)# keV 7.3(2) μs IT In (25/2+)
In 49 73 121.910282(54) 1.5(3) s β Sn 1+
In 40(60)# keV 10.3(6) s β Sn 5+
In 290(140) keV 10.8(4) s β Sn 8−
In 49 74 122.910435(21) 6.17(5) s β Sn 9/2+
In 327.21(4) keV 47.4(4) s β Sn 1/2−
In 2078.1(6) keV 1.4(2) μs IT In (17/2−)
In 2103(14)# keV >100 μs IT In (21/2−)
In 49 75 123.913185(33) 3.12(9) s β Sn 3+
In −20(60) keV 3.67(03) s β Sn 8−
IT? In
In 49 76 124.9136738(19) 2.36(4) s β Sn 9/2+
In 352(12) keV 12.2(2) s β Sn 1/2−
In 2009.4(7) keV 9.4(6) μs IT In (19/2+)
In 2161.2(9) keV 5.0(15) ms IT In (23/2−)
In 49 77 125.9164682(45) 1.53(1) s β Sn 3+
In 90(7) keV 1.64(5) s β Sn 8−
In 243.3(2) keV 22(2) μs IT In 1−
In 49 78 126.9174539(14) 1.086(7) s β (>99.97%) Sn 9/2+
β, n (<0.03%) Sn
In 407.9(50) keV 3.618(21) s β (99.30%) Sn 1/2−#
β, n (0.70%) Sn
In 1728.7(12) keV 1.04(10) s β Sn (21/2−)
β, n? Sn
In 2364.7(9) keV 9(2) μs IT In (29/2+)
In 49 79 127.9203536(14) 816(27) ms β (99.96%) Sn (3)+
β, n (0.038%) Sn
In 247.87(10) keV 23(2) μs IT In (1)−
In 285.1(22) keV 720(100) ms β Sn (8−)
IT? In
β, n? Sn
In 1797.6(16) keV >0.3 s β Sn (16+)
IT? In
β, n? Sn
In 49 80 128.9218085(21) 570(10) ms β (99.77%) Sn 9/2+
β, n (0.23%) Sn
In 449.1(59) keV 1.23(3) s β (96.2%) Sn 1/2−
β, n (3.6%) Sn
IT? In
In 1646.6(33) keV 670(100) ms β Sn (23/2−)
IT? In
In 1687.97(25) keV 11.2(2) μs IT In (17/2−)
In 1927.6(33) keV 110(15) ms IT In (29/2+)
β? Sn
In 49 81 129.9249523(19) 273(5) ms β (99.07%) Sn 1(−)
β, n (0.93%) Sn
In 66.5(27) keV 540(10) ms β (98.20%) Sn (10-)
β, n (1.80%) Sn
In 385.4(26) keV 540(10) ms β (98.20%) Sn (5+)
β, n (1.80%) Sn
In 388.3(2) keV 4.6(2) μs IT In (3+)
In 49 82 130.9269728(24) 261.5(28) ms β (97.75%) Sn 9/2+
β, n (2.25%) Sn
In 376(3) keV 328(15) ms β (97.75%) Sn 1/2−
β, n (2.25%) Sn
IT? In
In 3750(90) keV 322(41) ms β (88%) Sn (21/2+)
β, n (12%) Sn
IT? Sn
In 3783.6(5) keV 669(34) ns IT In (17/2+)
In 49 83 131.932998(64) 202.2(2) ms β (87.7%) Sn (7−)
β, n (12.3%) Sn
β, 2n? Sn
In 49 84 132.93807(22)# 163.0(16) ms β, n (85%) Sn (9/2+)
β (15%) Sn
β, 2n? Sn
In 330(40)# keV 167(11) ms β, n (93%) Sn (1/2−)
β (7%) Sn
In 49 85 133.94421(22)# 140(4) ms β, n (65%) Sn 7−#
β? Sn
β, 2n (<4%) Sn
In 56.7(1) keV 3.5(4) μs IT In (5−)
In 49 86 134.94943(32)# 103(3) ms β Sn 9/2+#
β, n? Sn
β, 2n? Sn
In 49 87 135.95602(32)# 86(9) ms β Sn 7−#
β, n? Sn
β, 2n? Sn
In 49 88 136.96154(43)# 70(40) ms β Sn 9/2+#
β, n? Sn
β, 2n? Sn
This table header & footer:
  1. In – 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
    n: Neutron emission
    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. Used in medical applications
  11. ^ Fission product
  12. Primordial radionuclide

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: Indium". CIAAW. 2011.
  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. "Octreoscan review". Medscape.
  5. "Precision mass measurements of indium isotopes allow conclusions on the mass of the doubly-magic atomic nucleus of tin-100". GSI. 13 June 2012. Retrieved 2023-09-10.
  6. "Tin 100 probed by studying its neighboring isotopes, indium 99 and 101 – IJCLab". Retrieved 2023-09-10.
  7. ^ Jaries, A.; Stryjczyk, M.; Kankainen, A.; Ayoubi, L. Al; Beliuskina, O.; Canete, L.; de Groote, R. P.; Delafosse, C.; Delahaye, P.; Eronen, T.; Flayol, M.; Ge, Z.; Geldhof, S.; Gins, W.; Hukkanen, M.; Imgram, P.; Kahl, D.; Kostensalo, J.; Kujanpää, S.; Kumar, D.; Moore, I. D.; Mougeot, M.; Nesterenko, D. A.; Nikas, S.; Patel, D.; Penttilä, H.; Pitman-Weymouth, D.; Pohjalainen, I.; Raggio, A.; Ramalho, M.; Reponen, M.; Rinta-Antila, S.; de Roubin, A.; Ruotsalainen, J.; Srivastava, P. C.; Suhonen, J.; Vilen, M.; Virtanen, V.; Zadvornaya, A. "Physical Review C - Accepted Paper: Isomeric states of fission fragments explored via Penning trap mass spectrometry at IGISOL". journals.aps.org. arXiv:2403.04710.
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
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