Electrospun nanoscale iron oxide-decorated carbon fiber as an efficient heterogeneous catalyst for activating percarbonate to degrade Azorubin S in water

•Fe2O3@ carbon fiber (FeCF) is derived from carbonization of Fe(acac)3-PAN fiber.•FeCF shows a higher catalytic activity than Fe2O3 for activating PC to degrade AZS.•FeCF exhibits Ea of 39 kJ/mol for AZS degradation, which is lower than reported Ea.•FeCF can be reusable and remain catalytic active f...

Full description

Saved in:
Bibliographic Details
Published in:Journal of water process engineering 2021-04, Vol.40, p.101838, Article 101838
Main Authors: Hsiao, Chia-Yu, Hung, Ching, Kwon, Eilhann, Huang, Chao-Wei, Huang, Chih-Feng, Lin, Kun-Yi Andrew
Format: Article
Language:English
Subjects:
AOPs
Carbon
Catalyst
Dye
Iron oxide
Nanofiber
Wastewater
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Fe2O3@ carbon fiber (FeCF) is derived from carbonization of Fe(acac)3-PAN fiber.•FeCF shows a higher catalytic activity than Fe2O3 for activating PC to degrade AZS.•FeCF exhibits Ea of 39 kJ/mol for AZS degradation, which is lower than reported Ea.•FeCF can be reusable and remain catalytic active for activating PC to degrade AZS. Sodium percarbonate (2Na2CO3∙3H2O2) (PC) represents a promising alternative to H2O2 as PC is solid-phase, making it easier to handle; however iron (Fe) species are usually necessitated to activate PC for effectively producing hydroxyl radicals (HR) in degradation of toxicants. As homogeneous Fe species leads to severe issues of precipitation, heterogeneous iron oxide nanoparticles (NPs) seem promising but these NPs tend to aggregate in water. Thus, it is critical to develop supported iron oxide NPs. Since carbonaceous materials are one of the most useful supports, carbonaceous materials can be even fabricated into special morphologies to support iron oxide NPs. Herein, we propose to employ the electrospinning technique to develop carbon fiber (CF) as an advantageous carbon support because CF has a large aspect ratio (50:1) to allow iron oxide NPs well decorated on CF, forming a promising iron oxide NP-decorated CF (FeCF) for PC activation. FeCF is characterized using SEM, TEM, XRD, XPS, Raman spectroscopy and N2 sorption isotherm. This FeCF can exhibit a noticeably higher catalytic reactivity than pristine Fe2O3 NPs for activating PC to generate HR, and then degrade a toxicant, Azorubin S (AZS). FeCF also exhibits a much lower activation energy (Ea) value of AZS degradation than other reported catalysts. Besides, FeCF could be also reusable to activate PC for degradation of AZS. Additionally, the degradation mechanism of AZS by FeCF-activated PC is also elucidated to provide insights into activation of PC and its environmental applications. These features prove that FeCF is an efficient heterogeneous catalyst to activate PC for degrading toxicants in aqueous solutions.
ISSN:2214-7144
2214-7144
DOI:10.1016/j.jwpe.2020.101838