Journal
APPLIED CATALYSIS B-ENVIRONMENTAL
Volume 342, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.apcatb.2022.122270
Keywords
Zerovalent iron; Graphene; Microreactor; Fenton-like reaction; P-nitrophenol
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A novel microreactor was constructed by anchoring nZVI on the rGO/PPy substrate within the microchannel, which catalyzed the Fenton-like reaction to remove >99% PNP within 50 seconds. The rGO/PPy composite substrate stabilized the nZVI, facilitated the decomposition of H2O2, and promoted the redox cycle of Fe(III)/Fe(II). The significant convection and highly-effective mass transfer within the microreactor also contributed to the ultrafast PNP removal. The rGO/PPy/nZVI microreactor shows promise for pollutant removal from water.
The application of powdered nanoscale zero-valent iron (nZVI) in conventional reactors for water treatment is limited by insufficient mass-transfer and difficult post-separation of catalysts. Herein, a novel microreactor was constructed by anchoring nZVI on the reduced graphene oxide/polypyrrole nanocomposite (rGO/PPy) substrate within the microchannel of a stainless-steel tube through two-step electrodeposition, which catalyzed the Fenton -like reaction to remove > 99% p-nitrophenol (PNP) within 50 s, outperforming traditional batch reactors. The rGO/PPy composite substrate consolidated the adhesion on steel surface, stabilized the nZVI by forming electron -transfer complex, facilitated the decomposition of H2O2 to free center dot OH, and promoted the redox cycle of Fe(III)/Fe (II) via the electron donating capacity of rGO/PPy. Besides, the significant convection and highly-effective mass transfer within the microreactor also contributed to the ultrafast PNP removal. With acceptable durability, easy re-generation, and scalability, the rGO/PPy/nZVI microreactor is promising for the ultrafast removal of pollut-ants from water.
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