H2O2 production at gas-diffusion cathodes made from agarose-derived carbons with different textural properties for acebutolol degradation in chloride media

The excessive cost, unsustainability or complex production of new highly selective electrocatalysts for H2O2 production, especially noble-metal-based ones, is prohibitive in the water treatment sector. To solve this conundrum, biomass-derived carbons with adequate textural properties were synthesize...

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Veröffentlicht in:	Journal of hazardous materials 2022-02, Vol.423, p.127005-127005, Article 127005
Hauptverfasser:	Zhang, Yanyu, Daniel, Giorgia, Lanzalaco, Sonia, Isse, Abdirisak Ahmed, Facchin, Alessandro, Wang, Aimin, Brillas, Enric, Durante, Christian, Sirés, Ignasi
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Schlagworte:	Biomass Electro-Fenton Gas-diffusion electrode Hydrogen peroxide electrosynthesis Water treatment
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container_title	Journal of hazardous materials
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creator	Zhang, Yanyu Daniel, Giorgia Lanzalaco, Sonia Isse, Abdirisak Ahmed Facchin, Alessandro Wang, Aimin Brillas, Enric Durante, Christian Sirés, Ignasi
description	The excessive cost, unsustainability or complex production of new highly selective electrocatalysts for H2O2 production, especially noble-metal-based ones, is prohibitive in the water treatment sector. To solve this conundrum, biomass-derived carbons with adequate textural properties were synthesized via agarose double-step pyrolysis followed by steam activation. A longer steam treatment enhanced the graphitization and porosity, even surpassing commercial carbon black. Steam treatment for 20 min yielded the greatest surface area (1248 m2 g-1), enhanced the mesopore/micropore volume distribution and increased the activity (E1/2 = 0.609 V) and yield of H2O2 (40%) as determined by RRDE. The upgraded textural properties had very positive impact on the ability of the corresponding gas-diffusion electrodes (GDEs) to accumulate H2O2, reaching Faradaic current efficiencies of ~95% at 30 min. Acidic solutions of β-blocker acebutolol were treated by photoelectro-Fenton (PEF) process in synthetic media with and without chloride. In urban wastewater, total drug disappearance was reached at 60 min with almost 50% mineralization after 360 min at only 10 mA cm-2. Up to 14 degradation products were identified in the Cl−-containing medium. [Display omitted] •Gas-diffusion electrodes (GDEs) made from agarose-derived metal-free C electrocatalysts.•Enhanced textural properties upon steam treatment: greater surface area and mesoporosity.•Positive impact of improved textural properties: greater electroactivity and stability of GDEs.•H2O2 electrosynthesis: 60.5% efficiency at 360 min, greater than commercial GDE.•Total degradation of acebutolol by photoelectro-Fenton process, with 14 products identified.
doi_str_mv	10.1016/j.jhazmat.2021.127005
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To solve this conundrum, biomass-derived carbons with adequate textural properties were synthesized via agarose double-step pyrolysis followed by steam activation. A longer steam treatment enhanced the graphitization and porosity, even surpassing commercial carbon black. Steam treatment for 20 min yielded the greatest surface area (1248 m2 g-1), enhanced the mesopore/micropore volume distribution and increased the activity (E1/2 = 0.609 V) and yield of H2O2 (40%) as determined by RRDE. The upgraded textural properties had very positive impact on the ability of the corresponding gas-diffusion electrodes (GDEs) to accumulate H2O2, reaching Faradaic current efficiencies of ~95% at 30 min. Acidic solutions of β-blocker acebutolol were treated by photoelectro-Fenton (PEF) process in synthetic media with and without chloride. In urban wastewater, total drug disappearance was reached at 60 min with almost 50% mineralization after 360 min at only 10 mA cm-2. 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subjects	Biomass Electro-Fenton Gas-diffusion electrode Hydrogen peroxide electrosynthesis Water treatment
title	H2O2 production at gas-diffusion cathodes made from agarose-derived carbons with different textural properties for acebutolol degradation in chloride media
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