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Elucidating the roles of oxygen functional groups and defect density of electrochemically exfoliated GO on the kinetic parameters towards furazolidone detection

RSC advances, 2022-09, Vol.12 (43), p.27855-27867 [Peer Reviewed Journal]

Copyright Royal Society of Chemistry 2022 ;This journal is © The Royal Society of Chemistry 2022 The Royal Society of Chemistry ;ISSN: 2046-2069 ;EISSN: 2046-2069 ;DOI: 10.1039/d2ra04147b

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  • Title:
    Elucidating the roles of oxygen functional groups and defect density of electrochemically exfoliated GO on the kinetic parameters towards furazolidone detection
  • Author: Nguyet Nga, Dao Thi ; Le Nhat Trang, Nguyen ; Hoang, Van-Tuan ; Ngo, Xuan-Dinh ; Nhung, Pham Tuyet ; Tri, Doan Quang ; Cuong, Nguyen Duy ; Tuan, Pham Anh ; Huy, Tran Quang ; Le, Anh-Tuan
  • Subjects: Antibiotics ; Chemistry ; Defects ; Density ; Electron transfer ; Functional groups ; Graphene ; Irradiation ; Monitoring ; Nanosensors ; Oxygen ; Parameter modification ; Physical properties
  • Is Part Of: RSC advances, 2022-09, Vol.12 (43), p.27855-27867
  • Description: Using electrochemically exfoliated graphene oxide (GO)-modified screen-printed carbon electrodes for the detection of furazolidone (FZD), a nitrofuran antibiotic, was explored. In this study, we designed some GO samples possessing different oxygen functional group content/defect density by using ultrasonic irradiation or microwave techniques as supporting tools. The difference in physical characteristics of GO led to the remarkable change in kinetic parameters (electron transfer rate constant ( k s ) and transfer coefficient ( α )) of electron transfer reactions at K 3 / K 4 probes as well as the FZD analyte. Obtained results reveal that the GO-ultrasonic sample showed the highest electrochemical response toward FZD detection owing to the increase in defect density and number of edges in the GO nanosheets under ultrasonic irradiation. The proposed electrochemical nanosensor enabled the monitoring of FZD in the linear range from 1 μM to 100 μM with an electrochemical sensitivity of 1.03 μA μM −1 cm −2 . Tuning suitable electronic structures of GO suggests the potentiality of advanced GO-based electrochemical nanosensor development in food-producing animal safety monitoring applications. In this study, we have investigated the role of changes in the microstructure of graphene oxide (GO) on the analytical kinetic parameters of GO-based electrochemical sensors for detection of furazolidone (FZD) antibiotic drug.
  • Publisher: Cambridge: Royal Society of Chemistry
  • Language: English
  • Identifier: ISSN: 2046-2069
    EISSN: 2046-2069
    DOI: 10.1039/d2ra04147b
  • Source: PubMed Central
    DOAJ Directory of Open Access Journals
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