Environmental Biosensors 2011
DOI: 10.5772/16998
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Enzyme based phenol biosensors

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Cited by 6 publications
(5 citation statements)
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“…Using a neodymium magnet located at the bottom part of the GC disk, Fe 3 O 4 @pDA/HRP MNPs were magnetically captured in a reproducible way. The electrochemical detection of phenolic compounds was achieved thanks to the ability of such compounds to re-oxidized the HRP enzyme, acting as electron shuttles from the redox centre of the HRP molecules to the GCE surface in the presence of H 2 O 2 following the double displacement or "ping-pong" mechanism [40][41][42][43][44][45][46][47] .…”
Section: Electrochemical Characterization Of Fe 3 O 4 @Pda/hrp Mnpsmentioning
confidence: 99%
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“…Using a neodymium magnet located at the bottom part of the GC disk, Fe 3 O 4 @pDA/HRP MNPs were magnetically captured in a reproducible way. The electrochemical detection of phenolic compounds was achieved thanks to the ability of such compounds to re-oxidized the HRP enzyme, acting as electron shuttles from the redox centre of the HRP molecules to the GCE surface in the presence of H 2 O 2 following the double displacement or "ping-pong" mechanism [40][41][42][43][44][45][46][47] .…”
Section: Electrochemical Characterization Of Fe 3 O 4 @Pda/hrp Mnpsmentioning
confidence: 99%
“…MNPs, synthesized by co-precipitation method, were coated with poly(dopamine) film forming a core-shell polymeric-Fe 3 O 4 MNPs structure (Fe 3 O 4 @pDA MNPs) where HRP was immobilized. Although, HRP was immobilized using different approaches, few reports have been described in the literature using pDA as immobilization matrix [40][41][42][43][44][45][46][47] . The modified MNPs were characterized using different techniques such as XPS, AFM, FTIR, X-ray and the electroanalytical performance of the as prepared biosensor were evaluated against some common phenolic compounds.…”
Section: Introductionmentioning
confidence: 99%
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“…[16][17][18][19][20][21][22] have been developed. In addition, biosensors for the detection of phenolic compounds [23][24][25][26], pesticides [27][28][29][30], pathogens [9,[31][32][33][34][35] and drug residues [36,37] have been developed.…”
Section: Biosensing In Environmental Monitoringmentioning
confidence: 99%
“…The most important peroxidase-based biosensors used for the detection of some phenolic compounds, the sensitive material, the detection technique, and the substrate (analyte) and detection limits (LOD) are all shown in Table 1. [36] Poly(Gly)/SiSG/MWCNTs/HRP Differential pulse voltammetry Dopamine 0.6 [37] Con A-HRP Amperometry Catechol Phenol o-Cresol 0.6 0.2 0.4 [38] HRP/DNA Amperometry Chlorogenic acid 0.7 [39] Poly(GMA-co-MTM)/PPy/CNT/HRP Amperometry Phenol Hydroquinone Pyrocatechol 2-Aminophenol 0.732 0.336 0.516 0.247 [40] HRP-horseradish peroxidase; Au/MPA/HRP-gold/mercaptoundecanoic acid/horseradish peroxidase; SAP/HRP/Au-GN-Spiny Au-Pt nanotubes/horseradish peroxidase/Au-graphene; HRP/DNA-horseradish peroxidase/DNA; Con A/HRP-concanavalin A/horseradish peroxidase Poly(Gly)/SiSG/MWCNTs/HRP-DA-poly (Glycine)/silica sol-gel/multiwalled carbon nanotubes/horseradish peroxidase; Poly(GMAco-MTM)/PPy/CNT/HRP-poly(glycine methacrylate-co-3-thienylmethyl methacrylate)-polypyrrole-carbon nanotube-horseradish peroxidase.…”
Section: Introductionmentioning
confidence: 99%