Using Simulations to Guide the Design of Amperometric Electrochemical Sensors Based on Mediated Electron Transfer

Abstract: Mediated electron-transfer sensors provide a practical means of detection for species for whom direct electron-transfer sensors are impractical. Through the use of numerical simulation, the design and optimisation of mediated electron-transfer sensors are presented in this work where we specifically consider the mediation as an irreversible process. Comparison is made between sensors employing the mediator as an adsorbed monolayer on the electrode's surface and sensors employing it as a soluble additive to the… Show more

“…Thus, the description of the system becomes complex and only in a few canonical cases has it been possible to model the current-time response, as in the case of a macro-electrode using the Cottrel equation [ 26 ], finite micro-discs [ 27 , 28 ], or spheres [ 29 ]. Accordingly, the study of the current response as a function of nanostructure morphology represents an important issue both in fundament research as well as in the sensor design [ 30 ].…”

Model of Chronoamperometric Response towards Glucose Sensing by Arrays of Gold Nanostructures Obtained by Laser, Thermal and Wet Processes

“…Thus, the description of the system becomes complex and only in a few canonical cases has it been possible to model the current-time response, as in the case of a macro-electrode using the Cottrel equation [ 26 ], finite micro-discs [ 27 , 28 ], or spheres [ 29 ]. Accordingly, the study of the current response as a function of nanostructure morphology represents an important issue both in fundament research as well as in the sensor design [ 30 ].…”

Model of Chronoamperometric Response towards Glucose Sensing by Arrays of Gold Nanostructures Obtained by Laser, Thermal and Wet Processes

Electroanalytical techniques in biosciences: conductometry, coulometry, voltammetry, and electrochemical sensors