Novel approach to interference analysis of glucose sensing materials coated with Nafion

We focus here on a novel approach to analysing the mechanisms of interference phenomena in glucose sensing, taking into account the changes within the Nafion layer deposited on the active surface. Several electrochemical techniques were used to verify the sustainability of catalytic properties of the electrode material after exposure to different compounds, i.e. ascorbic acid (AA), glycine, urea, acetylsalicylic acid (AsA), and acetaminophen (AAp). Through analysis of impedance data, we concluded that AAp and AsA were trapped permanently in the Nafion membrane, which significantly affected results repeatability. These observations were also confirmed by FT-IR investigations of the membrane after its immersion in solutions containing different interfering species. Moreover, after exposure to AsA and, unexpectedly, large concentrations of urea, the catalytic properties were completely lost, which, in consequence, make sensor reuse impossible. Such behaviour was justified by the chain reorganisation and swelling. Mechanisms involving adsorption onto the interphase and absorption in the membrane were proposed as key factors responsible for deterioration of membrane functionality and were confronted with FT-IR investigations. Following that, application of Nafion for non-invasive glucose sensor protection is unsatisfactory and cannot be considered for multiple detection procedures, especially taking into account biological fluids full of different interfering species. (C) 2020 Elsevier B.V. All rights reserved.