Electrochemical behaviour of nanocomposite Agx:TiN thin films for dry biopotential electrodes
By Pedrosa, P.; Alves, E.; Barradas, N.P.; Martin, N.; Fiedler, P.; Haueisen, J.; Vaz, F. & Fonseca, C.
Published in Electrochimica Acta
2014
Abstract
Agx:TiN nanocomposite thin films with Ag contents ranging from ∼0.1 up to ∼47.5 at% obtained by DC reactive sputtering on glass substrates were characterized regarding their electrochemical performance in a synthetic sweat solution, aiming at studying their potential application as bioelectrodes. Correlations between the electrochemical behaviour and their exhibited morphology (porosity) and structure (grain size) were established and discussed in detail. The coatings’ open circuit potential (OCP) is ruled by the Ag/TiN galvanic coupling and it decreased with the increase of the Ag content. For Ag contents up to 12.1 at% the OCP was found to be close to that of bulk Ag, but for higher Ag contents the OCP of the Agx:TiN samples displayed a steep drop, which was ascribed to the effect of Ag grain size reduction (from ∼28 to ∼10 nm). Both SEM and voltammetric experiments confirmed a gradual porosity decrease (densification) of the coatings with increasing Ag content, leading to a reduction of the electroactive area. All samples, besides displaying good chemical stability in chloride media, exhibited low impedance moduli and electrochemical noise similar to that of commercial Ag/AgCl electrodes, thus making them suitable to be used as bioelectrodes, from the electrochemical point of view.