Amperometric glycolate sensors based on glycolate oxidase and polymeric electron transfer mediators

Using experiments involving cyclic voltammetry and stationary potential measurements, it was shown that siloxane polymers with covalently attached ferrocene and 1,1'-dimethylferrocene relays efficiently mediate electron transfer from reduced glycolate oxidase to a conventional carbon-paste electrode. Sensors containing these polymeric relay systems and glycolate oxidase respond rapidly to low (< 0.1 mM) glycolate concentrations, with steady-state current responses achieved in less than 1 min. The dependence of the sensor response on the nature of the siloxane polymer backbone, the type of polymer-bound redox mediator used and the amount of redox mediator present is discussed. From these considerations, sensors have been designed which can operate efficiently at low applied potential and can avoid decreased current response due to dissolved oxygen.