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Electrochemical evaluation of screen-printed sensor manufacturing and LOx enzyme immobilization for lactate biomarker detection: influence of reference electrode material

Júlia Konzen Moreira, Milleny Germann Souza, Gabriela Victória de Mello Jantzch, Duane da Silva Moraes, Thomas Sponchiado Pastore, Iara Janaína Fernandes, Juliana Nichterwitz Scherer, Jacqueline Santos, Willyan Hasenkamp, Priscila Schmidt Lora

2024RSC Advances12 citationsDOIOpen Access PDF

Abstract

, indicating greater charge transfer resistance, but also demonstrated higher current density, which enhances the efficiency of the faradaic process and improves repeatability. To evaluate the impact of the conductive material of the WE on lactate detection, lactate oxidase (LOx) was immobilized on the working electrode using a Nafion polymer membrane, ensuring enzyme stability and minimizing interference. The linear relationship between lactate concentration and measured electric current revealed that carbon/graphene reference electrodes are a viable alternative to Ag/AgCl, offering comparable performance in terms of sensitivity and detection limit. These sensors are unaffected by interferents such as glucose and ascorbic acid; however, when using human plasma, a reduction in the measured electric current was observed at all concentrations, which may impact analyte detection sensitivity. This finding suggests the need for future studies to evaluate other biological interferents.

Topics & Concepts

ElectrodeElectrochemistryGrapheneElectrochemical gas sensorReference electrodeMaterials scienceBiosensorChemistryNanotechnologyPhysical chemistryAnalytical Chemistry and SensorsElectrochemical sensors and biosensorsElectrochemical Analysis and Applications
Electrochemical evaluation of screen-printed sensor manufacturing and LOx enzyme immobilization for lactate biomarker detection: influence of reference electrode material | Litcius