The degradation performance of the Fe78Si13B9 and (FeCoNi)78Si13B9 high-entropy amorphous alloy ribbons

Abstract

The Fe78Si13B9 amorphous alloy ribbons and high-entropy amorphous alloy ribbons of (FeCoNi)78Si13B9 were prepared by melt spinning method. The decolorization performances of these ribbons were investigated in details. It was interesting that Orange Ⅱ solution of 40 mg/L can be degraded almost completely within 70 min and a reduction 52.4% in COD (Chemical Oxygen Demand) value using Fe78Si13B9 amorphous ribbons, indicating the prominent capacity of alloys on the degradation of azo dyes. As for amorphous ribbons (FeCoNi)78Si13B9, they just presented a physical adsorption process, with no chemical degradation of dye molecules under the same conditions. Furthermore, the Fe78Si13B9 amorphous ribbons possess a higher decolorization reaction rate (kobs = 0.071 min−1) compared to the (FeCoNi)78Si13B9 ribbons, together with converting dye molecules to harmless micromolecule inorganic substances, which is of practical significance from the perspective of environmental protection. In addition, all the degradation process in this work fit well with the pseudo-first-order kinetic model. The findings are attractive, valuable and promising for the practical applications and they have important implications in developing Fe-based high-entropy alloys for functional application materials in the field of wastewater treatment.