Journal
MEASUREMENT
Volume 175, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.measurement.2021.109112
Keywords
Alcohol oxidase; Formaldehyde; Polyacrylate; Potentiometric biosensor; Screen-printed electrode
Funding
- National University of Malaysia (UKM) via Research University Grant [GUP2018156]
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A membrane-based potentiometric biosensor was developed for rapid and easy detection of formaldehyde, showing a broad linear range and high sensitivity. The sensor exhibited high stability in detecting formaldehyde and was able to avoid interference from potential interferants.
A membrane-based potentiometric biosensor has been fabricated from poly(n-butyl acrylate-co-N-acryloxysuccinimide as both enzyme supporting matrix and pH-sensitive transducer on the Ag/AgCl screen-printed electrode for rapid and facile determination of formaldehyde. Detection of formaldehyde was based on H+ ion transfer reaction at the electrode-electrolyte interface facilitated with immobilized hydrogen ionophore via ionionophore complexation at the interface. The potentiometric enzyme biosensor demonstrated a broad linear range to formaldehyde from 0.5 to 220.0 mM (R-2 = 0.9982) with fast response time within 8 s and sensitivity of 59.23 +/- 0.85 mV/decade (n = 5). The operational stability of the formaldehyde biosensor with covalently immobilized alcohol oxidase showed > 95% sensitivity throughout the biosensor lifetime experimental period of 80 days. The formaldehyde biosensor based on succinimide-functionalized polyacrylate ion-selective membrane sustained negligible interference of potential interferants, e.g. methanol, ethanol, glucose and glycerol, and its feasibility for accurate assay of formaldehyde in commercial fish samples has been validated with UV-Vis spectrophotometric Nash standard method.
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