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Structure of the atom. Radioactive decay. Interaction of particulate radiation. Interactions of X radiation and y radiation. Production of radioactive nuclides. Synthesis of labeled compounds. Radioactive pharmaceuticals. Gas-filled detectors. External scintillation detectors. Semiconductor radiation detectors. Nuclear counting systems. Scientillation spectrometry. Sample preparations for external counting. Sample preparation for liquid scintilation counting. Liquid scintillation counting. autoradiography and radiochromatography. Activation analysis. Statistics of radioactivity measurements. Quantitative measurement of radioactivity. Dynamic function studies. Scanning and whote-body counting. Radiation exposure and dose. Internal absorbed dose. Guidelines for radiation protection. Radiation safety.
This bibliography contains a total of 959 selected references on the use of radioisotopes in biological research. These references were selected from the scientific literature published during the period 1958-1963. Author, isotope, and report number indexes are included.
Isotope is Biology is a six-chapter supplementary text that covers the properties and application of isotopes as labels or analytical tools in biological research. The first chapters deal with the physico-chemical properties and radioactivity of isotopes. These chapters also explore their synthesis, preparation, radiation decomposition, and decay of radioactivity. The succeeding chapter considers other aspects of isotopes, including their effect of health, disposal, spills, and laboratory use. Another chapter examines the chemical and biochemical behavior, natural abundance, and the chemical stability of isotopic compounds. The final chapters describe several isotopic methods, namely, isotope dilution, paper chromatography, and autoradiography, with emphasis on their application in biological studies. This book will be of value to biologists, and graduate and undergraduate biology students.
The use of radioactive material in biological research continues to expand. This book provides detailed practical protocols on how to chose, handle, and use radioisotopes in a wide range of applications, including in vivo and in vitro labelling, autoradiography, and radioimmunoassay. Also included are guidelines to isotope and equipment choice, safety precautions, radiation protection advice, and summaries of legislation covering radioactive material in both the US and the UK.
The book Radioisotopes - Applications in Physical Sciences is divided into three sections namely: Radioisotopes and Some Physical Aspects, Radioisotopes in Environment and Radioisotopes in Power System Space Applications. Section I contains nine chapters on radioisotopes and production and their various applications in some physical and chemical processes. In Section II, ten chapters on the applications of radioisotopes in environment have been added. The interesting articles related to soil, water, environmental dosimetry/tracer and composition analyzer etc. are worth reading. Section III has three chapters on the use of radioisotopes in power systems which generate electrical power by converting heat released from the nuclear decay of radioactive isotopes. The system has to be flown in space for space exploration and radioisotopes can be a good alternative for heat-to-electrical energy conversion. The reader will very much benefit from the chapters presented in this section.
Radioactive isotopes and enriched stable isotopes are used widely in medicine, agriculture, industry, and science, where their application allows us to perform many tasks more accurately, more simply, less expensively, and more quickly than would otherwise be possible. Indeed, in many casesâ€"for example, biological tracersâ€"there is no alternative. In a stellar example of "technology transfer" that began before the term was popular, the Department of Energy (DOE) and its predecessors has supported the development and application of isotopes and their transfer to the private sector. The DOE is now at an important crossroads: Isotope production has suffered as support for DOE's laboratories has declined. In response to a DOE request, this book is an intensive examination of isotope production and availability, including the education and training of those who will be needed to sustain the flow of radioactive and stable materials from their sources to the laboratories and medical care facilities in which they are used. Chapters include an examination of enriched stable isotopes; reactor and accelerator-produced radionuclides; partnerships among industries, national laboratories, and universities; and national isotope policy.