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A Comprehensive Review of Selected Major Categories of Lithium Isotope Separation Techniques

Arun Murali, Zongliang Zhang, Michael L. Free, Prashant K. Sarswat

2021physica status solidi (a)30 citationsDOIOpen Access PDF

Abstract

The ability to generate materials with an enriched isotopic abundance, that is one that differs from natural abundance, is critical in terms of technology. Isotopes are used in a wide range of applications, including radioactive tracers, nondestructive tests, radiotherapy in human medicine, nuclear fuels, and isotope‐substituted compounds for chemistry and biology research, as well as environmental geochemical signature tracers. A commonly discussed research topic is the isotopic separation of various elements—uranium, hydrogen, lithium, and iodine, among many others. Among these isotopes, lithium isotopes are especially important in various applications including strategic areas. These isotopes are light and hence their separation techniques are not very obvious. Herein, all the main categories of Li isotope separation are reviewed in depth with a focus on electrochemical technologies for stable lithium isotope separation.

Topics & Concepts

IsotopeIsotopes of lithiumLithium (medication)Stable isotope ratioAbundance (ecology)Natural abundanceIsotopic signatureIsotopes of uraniumIsotope separationRadiochemistryUraniumChemistryEnvironmental scienceNuclear physicsIonPhysicsEcologyIon exchangeEndocrinologyOrganic chemistryMedicineBiologyChemical Synthesis and CharacterizationRadioactive element chemistry and processingExtraction and Separation Processes