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2. Isotopes of iodine - Wikipedia

   en.wikipedia.org/wiki/Isotopes_of_iodine

   Iodine-135 is an isotope of iodine with a half-life of 6.6 hours. It is an important isotope from the viewpoint of nuclear reactor physics . It is produced in relatively large amounts as a fission product , and decays to xenon-135 , which is a nuclear poison with the largest known thermal neutron cross section , which is a cause of multiple ...

3. Iodine pit - Wikipedia

   en.wikipedia.org/wiki/Iodine_pit

   The iodine pit, also called the iodine hole or xenon pit, is a temporary disabling of a nuclear reactor due to buildup of short-lived nuclear poisons in the reactor core. The main isotope responsible is 135 Xe, mainly produced by natural decay of 135 I. 135 I is a weak neutron absorber, while 135 Xe is the strongest

4. Iodine - Wikipedia

   en.wikipedia.org/wiki/Iodine

   Iodine is a chemical element; it has symbol I and atomic number 53. ... [136] [135] The patient's allergy history is relevant. [137] US DEA List I status

5. Xenon-135 - Wikipedia

   en.wikipedia.org/wiki/Xenon-135

   Xenon-135 (135 Xe) is an unstable isotope of xenon with a half-life of about 9.2 hours. 135 Xe is a fission product of uranium and it is the most powerful known neutron-absorbing nuclear poison (2 million barns; [1] up to 3 million barns [1] under reactor conditions [2]), with a significant effect on nuclear reactor operation.

6. Iodine-135 - Wikipedia

   en.wikipedia.org/?title=Iodine-135&redirect=no

   move to sidebar hide. From Wikipedia, the free encyclopedia

7. Iodine Clock Reaction [Video] - AOL

   www.aol.com/news/iodine-clock-reaction-155728609...

   This experiment is about much more than just watching Iodine solution turn royal blue from reddish brown. Try this experiment at home with the kids to introduce them to the basic tenet of physics ...

8. Isotopes of tellurium - Wikipedia

   en.wikipedia.org/wiki/Isotopes_of_tellurium

   Some common radionuclides that can be produced from tellurium-124 are iodine-123 and iodine-124. The short-lived isotope 135 Te (half-life 19 seconds) is produced as a fission product in nuclear reactors. It decays, via two beta decays, to 135 Xe, the most powerful known neutron absorber, and the cause of the iodine pit phenomenon.

9. Iodine-131 - Wikipedia

   en.wikipedia.org/wiki/Iodine-131

   Iodine-131 (131 I, I-131) is an important radioisotope of iodine discovered by Glenn Seaborg and John Livingood in 1938 at the University of California, Berkeley. [3]