A new Fe-based metallic glass with composition Fe76 B12 Si9 Y3 (at. %) is found to have extraordinary degradation efficiency towards methyl orange (MO, C14 H14 N3 SO3) in strong acidic and near neutral environments compared to crystalline zero-valent iron (ZVI) powders and other Fe-based metallic glasses. The influence of temperature (294-328 K) on the degradation reaction rate was measured using ball-milled metallic glass powders revealing a low thermal activation energy barrier of 22.6 kJ/mol. The excellent properties are mainly attributed to the heterogeneous structure consisting of local Fe-rich and Fe-poor atomic clusters, rather than the large specific surface and strong residual stress in the powders. The metallic glass powders can sustain almost unchanged degradation efficiency after 13 cycles at room temperature, while a drop in degradation efficiency with further cycles is attributed to visible surface oxidation. Triple quadrupole mass spectrometry analysis conducted during the reaction was used to elucidate the underlying degradation mechanism. The present findings may provide a new, highly efficient and low cost commercial method for azo dye wastewater treatment.
CITATION STYLE
Xie, S., Huang, P., Kruzic, J. J., Zeng, X., & Qian, H. (2016). A highly efficient degradation mechanism of methyl orange using Fe-based metallic glass powders. Scientific Reports, 6. https://doi.org/10.1038/srep21947
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