Design and preparation of CaFe layered double hydroxides for efficient . . . In this study, we first explore the hydrolysis of CaFe-LDH CLDH in pure water and extend our analysis to its reactions with fluorinated water, providing a comprehensive insight into the transformations of CaFe-LDH CLDH in aqueous solutions, and offer theoretical guidance of CaFe-LDH CLDH applications in aqueous environments
CaFe-LDH 的多个锚定位点同时增强了对污染水 土壤中镉、亚砷酸盐和铅的捕获能力:可扩展合成、机制和验证,ACS ES T . . . Here, we demonstrated that the synthesized CaFe-layered double hydroxide (CaFe-LDH) can provide various active sites for the simultaneous removal of Cd2+, AsO2–, and Pb2+ with removal efficiencies of >95% in 5 min and >99% within 60 min
Developed Recyclable CaFe-Layered Double Hydroxide for Efficient . . . - MDPI Powdered layered double hydroxide (CaFe-LDH) was synthesized via hydrothermal co-precipitation, demonstrating successful preparation upon characterization Subsequently, experiments were conducted to assess its efficacy in immobilizing divalent cadmium (Cd (II))
CaFe-Based Layered Double Oxides With Superior Iron Alloy . . . - Frontiers The reaction was initiated by adding 1 g of CaFe-LDH and LDO powder to 250 ml of the corrosion solution A saturated calomel electrode (SCE) and platinum electrode (PE) were employed as the reference and auxiliary electrodes, respectively