<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Novel LiAlO2 Material for Scalable and Facile Lithium Recovery Using Electrochemical Ion Pumping"^^ . "In this study, α-LiAlO2 was investigated for the first time as a Li-capturing positive electrode material to recover Li from aqueous Li resources. The material was synthesized using hydrothermal synthesis and air annealing, which is a low-cost and low-energy fabrication process. The physical characterization showed that the material formed an α-LiAlO2 phase, and electrochemical activation revealed the presence of AlO2* as a Li deficient form that can intercalate Li+. The AlO2*/activated carbon electrode pair showed selective capture of Li+ ions when the concentrations were between 100 mM and 25 mM. In mono salt solution comprising 25 mM LiCl, the adsorption capacity was 8.25 mg g�1, and the energy consumption was 27.98 Wh mol Li�1. The system can also handle complex solutions such as first-pass seawater reverse osmosis brine, which has a slightly higher concentration of Li than seawater at 0.34 ppm. © 2023 by the authors."^^ . "2023" . . "13" . "5" . . "Nanomaterials"^^ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Y.-C."^^ . "Ho"^^ . "Y.-C. Ho"^^ . . "L."^^ . "Al-Sulaiti"^^ . "L. Al-Sulaiti"^^ . . "D.S."^^ . "Han"^^ . "D.S. Han"^^ . . "U."^^ . "Hafsa"^^ . "U. Hafsa"^^ . . "Y."^^ . "Chen"^^ . "Y. Chen"^^ . . "H.K."^^ . "Shon"^^ . "H.K. Shon"^^ . . "T."^^ . "Elmakki"^^ . "T. Elmakki"^^ . . "Z."^^ . "Ahmad"^^ . "Z. Ahmad"^^ . . "S."^^ . "Zavahir"^^ . "S. Zavahir"^^ . . "H."^^ . "Park"^^ . "H. Park"^^ . . . . . "HTML Summary of #18768 \n\nNovel LiAlO2 Material for Scalable and Facile Lithium Recovery Using Electrochemical Ion Pumping\n\n" . "text/html" . .