Digital simulation via the hopscotch algorithm of a microelectrode-based channel flow-through amperometric detector

Pastore, P.; Magno, F.; Lavagnini, I.; Amatore, C. A.

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Journal of Electroanalytical Chemistry and Interfacial Electrochemistry, 1-2(301), p. 1-13

DOI: 10.1016/0022-0728(91)85455-x

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Digital simulation via the hopscotch algorithm of a microelectrode-based channel flow-through amperometric detector

Journal article published in 1991 by P. Pastore, F. Magno, I. Lavagnini, C. A. Amatore

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Abstract

The current flowing at a band ultramicroelectrode in a rectangular channel under mass transfer-limited conditions is computed numerically. The procedure is based on the "hopscotch" algorithm and on an appropriate space transformation, delta = tanh(x/alpha). The edge effect is found to influence the response depending on the flow rate. The polarization times necessary to reach the steady-state current are also computed under different operating conditions.

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Digital simulation via the hopscotch algorithm of a microelectrode-based channel flow-through amperometric detector

Abstract