Enteromorpha prolifera-derived Fe 3 C/C composite as advanced catalyst for hydroxyl radical generation and efficient removal for organic dye and antibiotic.

Enteromorpha prolifera-derived Fe ₃ C/C composite has been fabricated through a facile one-step calcination method. As an advanced Fenton-like catalyst, the obtained Fe ₃ C/C composite displayed high catalytic reactivity to generate hydroxyl radicals. It is worth to note that the removal rate of methylene blue (MB) could effectively reach 100% in a wide pH range (pH = 2˜12) and the maximum degradation capacity of the composite is 660 mg/g. The stability and reusability of Fe ₃ C/C composite catalyst have also been tested, which could remain the removal rate at 100% after 6 consecutive runs. To illustrate the practical application possibility, the Fe ₃ C/C composite catalyst was used for degradation of papermaking and dyeing waste water, which could reduce the COD (chemical oxygen demand) value to less than 50. Additionally, the antibiotic norfloxacin (NOR) could also be catalytically removed by the Fe ₃ C/C composite and the possible removal pathway has also been proposed. The excellent removal performance of Fe ₃ C/C composite for MB and NOR may be attributed to the synergistic effect between porous carbon adsorption and Fe ₃ C catalysis. This study not only provides novel insights into recycling of waste biomass, but also paves a new way for the application of Fe ₃ C/C in dyes and antibiotics waste water treatment areas.
(Copyright © 2019. Published by Elsevier B.V.)