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Chemical Consequences of Radioactive Decay and their Biological Implications
The chemical effects of radioactive decay arise from (1) transmutation, (2) formation of charged daughter nuclei, (3) recoil of the daughter nuclei, (4) electron “shakeoff” phenomenon and (5) vacancy cascade in decays via electron capture and internal conversion. This review
aims to reiterate what has been known for a long time regarding the chemical consequences of radioactive decay and gives a historical perspective to the observations that led to their elucidation. The energetics of the recoil process in each decay mode is discussed in relation to the chemical
bond between the decaying nucleus and the parent molecule. Special attention is given to the biological effects of the Auger process following decay by electron capture and internal conversion because of their possible utility in internal radiotherapy.
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Keywords: Auger effect; energy and momentum; internal radiotherapy; photochemistry; radiation effects; radioactive decay; transmutation
Document Type: Research Article
Publication date: 01 December 2017
- Current Radiopharmaceuticals publishes original research articles, letters, reviews, drug clinical trial studies and guest edited issues on all aspects of research and development of radiolabelled compound preparations. The scope of the journal covers the following areas: radio imaging techniques, therapies; preparation and application of radionuclide compounds including the incorporation of tracer methods used in scientific research and applications.
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