Annealed SiO<sub>2</sub> Protective Layer on LiMn<sub>2</sub>O<sub>4</sub> for Enhanced Li-Ion Extraction from Brine
Hualun Li, Jiahao Pan, Yitao Ping, Jingyuan Su, Moling Fang, Tian Chen, Bingcai Pan, Zhenda Lu
Abstract
In this study, we present a novel approach for selective Li-ion extraction from brine using an LiMn 2 O 4 ion sieve coated with a dense silica layer, denoted as LMO@SiO 2 . The SiO 2 layer is controllably coated onto the LMO surface, forming passivation layers and ion permeation filters. This design effectively minimizes the acidic corrosion of the LMO and enhances the Li + adsorption capacity. Additionally, the SiO 2 layer undergoes calcination at various temperatures (ranging from 300 to 700 °C) to achieve different compactness levels of the coating layer, providing further protection to the LMO crystal structures. As a result of these improvements, the optimized LMO@SiO 2 adsorbent demonstrates an exceptional Li + adsorption capacity of 18.5 mg/g for brine, and even after seven adsorption–elution cycles, it maintains a capacity of 15.3 mg/g. This outstanding performance makes our material a promising candidate for efficient Li + extraction from brine or other low-concentration Li + solutions in future applications.