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Gold-198

From Wikipedia, the free encyclopedia
Gold-198, 198Au
General
Symbol198Au
Namesgold-198, 198Au, Au-198
Protons (Z)79
Neutrons (N)119
Nuclide data
Half-life (t1/2)2.69464 d[1]
Isotope mass197.9682437[2] Da
Spin2−
Decay products198Hg
Decay modes
Decay modeDecay energy (MeV)
β1.3735[2]
Isotopes of gold
Complete table of nuclides

Gold-198 (198Au) is a radioactive isotope of gold. It undergoes beta decay to stable 198Hg with a half-life of 2.69464 days.

The decay properties of 198Au have led to widespread interest in its potential use in radiotherapy for cancer treatments. This isotope has also found use in nuclear weapons research and as a radioactive tracer in hydrological research.

Discovery

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198Au was possibly observed for the first time in 1935 by Enrico Fermi et al., though it was not correctly identified at the time. This isotope was conclusively identified in 1937 following neutron irradiation of stable 197Au and was ascribed a half-life of approximately 2.7 days.[3]

Applications

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Decay scheme of 198Au to 198Hg

Nuclear medicine

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198Au is used for radiotherapy in some cancer treatments.[4][5] Its half-life and beta decay energy are favorable for use in medicine because its 4 mm penetration range in tissue allows it to destroy tumors without nearby non-cancerous tissue being affected by radiation.[6] For this reason, 198Au nanoparticles are being investigated as an injectable treatment for prostate cancer.[6][7]

Radioactive tracing

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Sediment and water flow can be investigated using radioactive tracers such as 198Au. This has been used extensively since artificial radioisotopes became available in the 1950s, as a supplement to millennia of investigations using other tracing techniques.[8]

Inside coker units at oil refineries, 198Au is used to study the hydrodynamic behavior of solids in fluidized beds and can also be used to quantify the degree of fouling of bed internals.[9]

Nuclear weapons

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Gold has been proposed as a material for creating a salted nuclear weapon (cobalt is another, better-known salting material). A jacket of natural 197
Au
(the only stable gold isotope), irradiated by the intense high-energy neutron flux from an exploding thermonuclear weapon, would transmute into the radioactive isotope 198Au with a half-life of 2.697 days and produce approximately 0.411 MeV of gamma radiation, significantly increasing the radioactivity of the weapon's fallout for several days. Such a weapon is not known to have ever been built, tested, or used.[10]

The highest amount of 198Au detected in any United States nuclear test was in shot "Sedan" detonated at Nevada Test Site on July 6, 1962.[11]

See also

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References

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  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): 139. doi:10.1088/1674-1137/abddae.
  2. ^ a b Wang, M.; Audi, G.; Kondev, F. G.; Huang, W. J.; Naimi, S.; Xu, X. (2017). "The AME2016 atomic mass evaluation (II). Tables, graphs, and references" (PDF). Chinese Physics C. 41 (3): 030003-1–030003-442. doi:10.1088/1674-1137/41/3/030003.
  3. ^ Schuh, A.; Fritsch, A.; Ginepro, J.Q.; Heim, M.; Shore, A.; Thoennessen, M. (2010). "Discovery of the gold isotopes" (PDF). Atomic Data and Nuclear Data Tables. 96 (3): 307–314. arXiv:0903.1797. Bibcode:2010ADNDT..96..307S. doi:10.1016/j.adt.2009.12.001. S2CID 98691829.
  4. ^ "Nanoscience and Nanotechnology in Nanomedicine: Hybrid Nanoparticles In Imaging and Therapy of Prostate Cancer". Radiopharmaceutical Sciences Institute, University of Missouri-Columbia. Archived from the original on March 14, 2009.
  5. ^ Hainfeld, James F.; Dilmanian, F. Avraham; Slatkin, Daniel N.; Smilowitz, Henry M. (2008). "Radiotherapy enhancement with gold nanoparticles". Journal of Pharmacy and Pharmacology. 60 (8): 977–85. doi:10.1211/jpp.60.8.0005. PMID 18644191. S2CID 32861131.
  6. ^ a b Katti, K.V.; Khoobchandanai, M.; Al-Yasiri, A.; Katti, K.K.; Cutler, C.; Loyalka, S.K. (2017). Radioactive Gold-198 Nanoparticles In Nanomedicine: Green Nanotechnology and Radiochemical Approaches in Oncology. 6th Asia-Pacific Symposium on Radiochemistry. Jeju.
  7. ^ "Green Tea and Gold Nanoparticles Destroy Prostate Tumors". 2012.
  8. ^ Plata-Bedmar, A. (1988). Artificial radioisotopes in hydrological investigation: A review of specific applications (PDF) (Report). Topical reports. IAEA Bulletin. pp. 35–38.
  9. ^ Sanchez, Francisco J.; Granovskiy, Mikhail (2012). "Application of radioactive particle tracking to indicate shed fouling in the stripper section of a fluid coker". Canadian Journal of Chemical Engineering. 91 (6): 1175–1182. doi:10.1002/cjce.21740.
  10. ^ D. T. Win; M. Al Masum (2003). "Weapons of Mass Destruction" (PDF). Assumption University Journal of Technology. 6 (4): 199–219. Archived from the original on 2009-03-26. Retrieved 2024-04-28.{{cite journal}}: CS1 maint: bot: original URL status unknown (link)
  11. ^ R. L. Miller (2002). U.S. Atlas of Nuclear Fallout, 1951–1970. Vol. 1 (Abridged General Reader ed.). Two Sixty Press. p. 340. ISBN 978-1-881043-13-3.