Template-free synthesis of an eco-friendly flower-like Mg/Al/Fe-CLDH for efficient arsenate removal from aqueous solutions

Mg/Al-LDH is widely used in the removal of aqueous pollutants due to the large surface and high anion exchange capacity, but the traditional Mg/Al-LDH for arsenic removal has a narrow range of pH application. The present study focused on the modifying of the lamellar Mg/Al-LDH to synthesize flower-like nanoparticles for arsenate removal in a wide pH range. Results showed that Mg/Al/Fe-CLDH (calcined Mg/Al/Fe-LDH) exhibited an extremely high arsenate removal efficiency (e.g., reducing As(V) from 10 mg/L to 1 mu g/L) in a wide pH range (2-12). Furthermore, it can keep excellent removal efficiency for arsenate under a complex anions environment (co-existing with CO32-, SO42-, PO43-, and F-), and maintain 80% removal efficiency for arsenate after 4 regeneration cycles. SEM, XRD, and XPS results unveiled the following enhancing mechanism for arsenate removal by using this modified Mg/Al-LDH: 1) partial content of ferric ions were successfully insert into the layers of Mg/Al-LDH and substituted by aluminium ions, which produce more affiliative sites for arsenate and expand its feasibility in a wide pH ranges; 2) the flower-like structures facilitate to offer more adsorption sites for arsenate due to its larger specific surface area. In brief, this flower-like Mg/Al/Fe-CLDH has great application potential for eco-friendly purity of arsenate from complicated industrial wastewater.

Automated summary

The modified Mg/Al/Fe-CLDH showed extremely high arsenate removal efficiency in a wide pH range, maintaining excellent removal efficiency in a complex anions environment and after multiple regeneration cycles. With enhancing mechanisms such as the insertion of ferric ions and the flower-like structures, the Mg/Al/Fe-CLDH has great potential for efficiently purifying arsenate from complex industrial wastewater.