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Abstract
The extraction of lithium from natural deposits is energy intensive because Li+ is found together with physiochemically similar alkali (Na+, K+) and alkaline earth (Mg2+, Ca2+) metals. Methods for the direct and specific extraction of lithium from salt mixtures are thus essential to ensure an adequate supply of this metal for the batteries needed to decarbonize the world economy. Here we present the preparation of alkali-metal-templated coordination cages and their application to lithium extraction. Within the cage framework, protons amplify the different binding properties between Li+ and similar metal ions: protons associate exclusively with Li+ in close proximity at the cage vertices, repelling other cations as a result of increased electrostatic repulsion and reduced availability of coordinating nitrogen atoms. We developed this proton-driven lithium recognition within coordination cages into a separation cycle capable of extracting Li+ from a mixture of salts that includes Na+, K+, Mg2+ and Ca2+.
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Additional experimental procedures, results, and data to support the findings of this study can be found in the Supplemental Information
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