Waste-wood-derived biochar cathode and its application in electro-Fenton for sulfathiazole treatment at alkaline pH with pyrophosphate electrolyte.

For the first time, a biomass-derived porous carbon cathode (WDC) was fabricated via a facile one-step pyrolysis of recovered wood-waste without any post-treatment. The WDC along with pyrophosphate (PP) as electrolyte were used in electro-Fenton (EF) at pH 8 for sulfathiazole (STZ) treatment. The H ₂ O ₂ accumulation capacity of WDC was optimized via the following parameters: pyrolysis temperature, applied current and electrolyte. Results showed that the WDC cathode prepared at 900 °C achieved the highest H ₂ O ₂ accumulation (13.80 mg L ^-1 in 3 h) due to its larger electroactive surface area (28.81 cm ² ). Interestingly, it was found that PP decreased the decomposition rate of H ₂ O ₂ in solution as compared to conventional electrolyte, which resulted in higher H ₂ O ₂ accumulation. PP allowed operating EF at pH of 8 due to the formation of Fe ²⁺ -PP complexes in solution. Moreover, Fe ²⁺ -PP was able to activate oxygen to produce OH. In this way, the degradation of STZ took place through four main pathways: 1) via OH from the Fe ²⁺ -PP complex, 2) via OH from EF reactions, 3) via surface OH at the boron doped diamond electrode (BDD) and 4) via SO ₄ - from BDD activation. Finally, microtox tests revealed that some toxic intermediates were generated during WDC/BDD/PP EF treatment, but they were removed at the end of the process.
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