An innovative electrically conductive biopolymer based on poly(β‐cyclodextrin) towards recognition of ascorbic acid in real sample: Utilization of biocompatible advanced materials in biomedical analysis

In this study, a sensitive platform was designed for the electrocatalytical oxidation and recognition of ascorbic acid (AA) based on poly(β‐cyclodextrin) modified glassy carbon electrode (p(β‐CD‐GCE). Electropolymerization of β‐CD on the surface of GCE was performed on the potential range of −1 to 1...

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Bibliographic Details
Published in:Journal of molecular recognition 2022-05, Vol.35 (5), p.e2953-n/a
Main Authors: Behyar, Milad Baghal, Kholafazad‐kordasht, Houman, Hassanpour, Soodabeh, Hasanzadeh, Mohammad
Format: Article
Language:English
Subjects:
advanced biopolymer
Ascorbic Acid
beta-Cyclodextrins
Biocompatibility
Biocompatible Materials
Biomedical materials
Biopolymers
Blood plasma
Carbon cycle
Chemical sensors
Cyclodextrins
electrochemical oxidation
Electrochemical Techniques - methods
Electrochemistry
electropolymerization
Glassy carbon
Humans
Oxidation
Polymerization
Propylene Glycols
Recognition
sensor technology
β-Cyclodextrin
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Summary:In this study, a sensitive platform was designed for the electrocatalytical oxidation and recognition of ascorbic acid (AA) based on poly(β‐cyclodextrin) modified glassy carbon electrode (p(β‐CD‐GCE). Electropolymerization of β‐CD on the surface of GCE was performed on the potential range of −1 to 1.5 V. So, a novel biopolymer was prepared on the surface of GCE towards sensitive recognition of AA in human plasma samples. The developed platform has good sensitivity and accuracy for electrooxidation and detection of AA with lower limit of quantification (LLOQ) of 1 nM and linear range of 1 nM to 100 mM. Moreover, the designed electrochemical sensor was employed for the analysis of AA on human plasma samples with high sensitivity. Based on advantages of p(β‐CD) prepared by electropolymerization procedure (green, fast, homogeny, and efficient eletrocatalytical behaviour), this conductive biopolymer showed excellent analytical behaviour towards electrooxidation of AA. It is expected that the prepared polymeric interface is able to use in the analysis of biological species in clinical samples.
ISSN:0952-3499
1099-1352
DOI:10.1002/jmr.2953