Ca‐Fe mixed metal oxide adsorbent prepared via a novel coprecipitator for efficient fluoride adsorption

Abstract: The extensive utilization of fluorine industrial products has brought abundant fluorine pollution. The fluorine removal is important. In this study, CaO, as a novel coprecipitator, was conducted to synthesize Ca‐Fe‐SO4 layered double hydroxide (CF) via co‐precipitation of FeSO4. Ca‐Fe mixed metal oxide adsorbent (CCF) was fabricated by calcinating CF for efficient fluoride adsorption. The results showed that CCF adsorbent had an excellent adsorption performance for fluoride. It was attributed to two reasons as… Show more

“…This peak is attributed to the adsorption of uorine, which is attributed to F 1s. The higher binding energy of F 1s compared to sodium uoride (684.50 eV), 54 conrms that uorine interacts with the metal 55 and validates the successful adsorption of uorine into the sample. Further, a split peak was tted to the F 1s peak as shown in Fig.…”

Portable hydroxyl-functionalized coal gangue-based cordierite porous ceramics sheets for effective adsorption of fluorine-containing wastewater

“…This peak is attributed to the adsorption of uorine, which is attributed to F 1s. The higher binding energy of F 1s compared to sodium uoride (684.50 eV), 54 conrms that uorine interacts with the metal 55 and validates the successful adsorption of uorine into the sample. Further, a split peak was tted to the F 1s peak as shown in Fig.…”

Portable hydroxyl-functionalized coal gangue-based cordierite porous ceramics sheets for effective adsorption of fluorine-containing wastewater

“…Among the Nano catalysts becoming popular, mixed metal oxides, especially the oxides of Ca with Fe are widely researched in the area of heterogeneous catalysis owing to their large surface area [ 25 ], magnetic recoverability [ 26 ], electrochemical activity [ 27 ] and phase versatility [ 28 ].…”

Acmella oleracea induced nanostructured Ca2Fe2O5 for evaluation of photo catalytic degradation of cardiovascular drugs and bio toxicity

Removal potential and mechanism of sulfamethoxazole and norfloxacin by biochar derived from bagasse and polymeric ferric sulfate