Mn-Doped Spinel for Removing Cr(VI) from Aqueous Solutions: Adsorption Characteristics and Mechanisms

Abstract: In this study, the manganese (Mn) was doped in the MnFe2O4 crystal by the solid-phase synthesis method. Under the optimum conditions (pH = 3), the max removal rate and adsorption quantity of Cr(VI) on MnFe2O4 adsorbent obtain under pH = 3 were 92.54% and 5.813 mg/g, respectively. The DFT calculation results indicated that the adsorption energy (Eads) between HCrO4− and MnFe2O4 is −215.2 KJ/mol. The Cr(VI) is mainly adsorbed on the Mn atoms via chemical bonds in the form of HCrO4−. The adsorption of Mn on the M… Show more

“…Nevertheless, under strongly acidic conditions (pH 2-4), the removal rate exhibits a marginal decrease. This can be attributed to the inability of the reduction product Cr(III) to deposit onto the surface of Ce-La-X composite materials through the formation of Cr(OH)x compounds, which is influenced by acid-base neutralization [33]. Ce-La-X can utilize its oxygen storage capacity and form more hydrogen bonds with HCrO 4 under acidic conditions.…”

Synthesis of Ce-La-Pr/Mn-O Ternary Oxide Composites via Co-Precipitation and Synergistic Photocatalytic Degradation of Cr(VI)

“…Nevertheless, under strongly acidic conditions (pH 2-4), the removal rate exhibits a marginal decrease. This can be attributed to the inability of the reduction product Cr(III) to deposit onto the surface of Ce-La-X composite materials through the formation of Cr(OH)x compounds, which is influenced by acid-base neutralization [33]. Ce-La-X can utilize its oxygen storage capacity and form more hydrogen bonds with HCrO 4 under acidic conditions.…”

Synthesis of Ce-La-Pr/Mn-O Ternary Oxide Composites via Co-Precipitation and Synergistic Photocatalytic Degradation of Cr(VI)