Efficient strategy for quality control of screen-printed carbon ink disposable sensor electrodes based on simultaneous evaluation of resistance,capacitance and Faradaic current by Fourier transform AC voltammetry |
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| Authors: | Alexander R. Harris Jie Zhang Anastassija Konash Darrell Elton Mark Hyland Alan M. Bond |
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| Affiliation: | (1) School of Chemistry, ARC Center for Green Chemistry, Monash University, Clayton, Victoria, 3800, Australia;(2) Department of Electronic Engineering, Latrobe University, Bundoora, Victoria, 3086, Australia;(3) Oxford Biosensors Limited, Oxford Industrial Park, Mead Road, Yarnton, Oxfordshire, OX5 1QU, UK |
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| Abstract: | ![]()
Two types of mass-produced, screen-printed carbon ink-based macrodisc electrodes suitable for routine sensing applications have been fabricated. Microscopic examination of these carbon ink electrode surfaces reveals that their surfaces are both rough and highly heterogeneous, consisting of random arrays of carbon particles of different sizes, as well as binder. Consequently, they may suffer from a lack of reproducibility in their performance because of variable resistance, capacitance or electroactive area. Use of a Fourier transform AC voltammetric protocol involving application of periodic waveform obtained from summation of five sine waves of variable frequency enabled resistance and capacitance, as well as DC and AC Faradaic currents associated with the model processes  or ![$$left[ {Ruleft( {NH_3 } right)_6 } right]^{3 + } + e^ - rightleftarrows left[ {Ruleft( {NH_3 } right)_6 } right]^{2 + } $$](/content/w691jxk2545jn274/10008_2008_524_Article_IEq2.gif) (where FcMeOH is ferrocene methanol) to be assessed from a single experiment. Such data, which may be obtained rapidly via this approach, are highly suitable for quality control assessment. |
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| Keywords: | Thick-film carbon ink electrodes Fourier transform AC voltammetry Resistance Capacitance Quality control of electrode fabrication |
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