Nuclear chemistry radioisotopes, applications

As you learned in the previous section, using nuclear fission reactions to generate electrical power is an important application of nuclear chemistry. Another very important application is in medicine, where the use of radioisotopes has made dramatic changes in the way some diseases are treated. This sechon explores the detection, uses, and effects of radiation. 

The section Radioactive Methods in volume 9 of the Treatise on Analytical Chemistry (Kolthoff and Elving 1971) discusses radioactive decay, radiation detection, tracer techniques, and activation analysis. It has a brief but informative chapter on radiochemical separations. A more recent text. Nuclear and Radiochemistry Fundamentals and Applications (Lieser 2001), discusses radioelements, decay, counting instruments, nuclear reactions, radioisotope production, and activation analysis in detail. It includes a brief chapter on the chemistry of radionuclides and a few pages on the properties of the actinides and transactinides. 

Excellent, comprehensive treatments of the principles and fundamentals of nuclear activation analysis - including applications fundamentals - are found in the following five consecutive chapters in the first edition of Treatise on Analytical Chemistry Finston (1971a) (Radioactive and isotopic methods of analysis nature, scope, limitations, and interrelations) Finston (1971b) (Nuclear radiations characteristics and detection) Crouthamel and Heinrich (1971) (Radiochemical separations) Seaman (1971) (Tracer techniques) and Guinn (1971) (Activation analysis). A series of seven similarly comprehensive chapters appeared in the updated second edition Lieser (1986), (Fundamentals of nuclear activation and radioisotopic methods of analysis) Herpers... 

Cornelis R and Versieck J (1986) Biological materials. In Hoste J, general author. In Elving PJ, Krivan V and KoltholF IM, eds. Treatise on analytical chemistry. Part I (Theory and practice). 2nd edition. Vol 14, section K (Nuclear activation and radioisotopic methods of analysis). Chapter 8, Applications of nuclear activation analysis, pp. 665—684. John Wiley Sons, New York. 

Isotope dilution mass spectrometry (ID-MS) is widely accepted as a quantification procedure of proven accuracy in elemental analysis and isotope ratio measurements [4]. Several areas of research in nuclear science, geochronology, medicinal chemistry, environmental science, and agricultural science have benefited from this technique. ID-MS is applicable to all elements that have at least two stable isotopes. Monoisotopic elements can be analyzed only if they have a long-lived natural or artificial radioisotope. For example, iodine and thorium have been determined with spikes of the long-lived isotopes 29i and 25 Th, respectively [44]. TI-MS and ICP-MS are the methods of choice for accurate ID-MS analysis. ICP-MS has the advantage that several elements can be analyzed simnltaneously under the same experimental conditions. Other ionization techniqnes discussed in this chapter have also been coupled with ID-MS. 

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