The development of a microcomputer controlled multielectrode potentiostat and a 32-electrode thin-layer flow-cell /

DeAbreu, Michael Paul

January 1988

The thin-layer flow-cell incorporated an array of 32 gold strip electrodes in a serial configuration opposite a platinum counter electrode. The cell body was made of Macor glass ceramic. A photolithographic procedure for etching the Macor and a simple method of applying a gold ink was devised. Resistive feedback current-to-voltage converters independently controlled the potential difference between the electrodes of the array and the common counter electrode. A microcomputer and a customized high speed data acquisition interface recorded the current response of each electrode. An expression for the faradaic response of a single electrode within a rectangular flow channel was modified to predict the behavior of the multi-electrode flow-cell. The quinone/hydroquinone redox system was used to evaluate the performance of the detector. Summing the signals from the array when all electrodes were held at the same potential improved the signal-to-noise ratio. Hydrodynamic curves were reconstructed from the currents measured at each electrode when a ramp potential profile was applied to the array.

Voltammetry -- Computer simulation

The development of a microcomputer controlled multielectrode potentiostat and a 32-electrode thin-layer flow-cell /

DeAbreu, Michael Paul

January 1988

No description available.

Voltammetry -- Computer simulation