PEDOT:PSS: A conductive and flexible polymer for sensor integration in Organ-on-Chip platforms
Date
2016Author
Quiros-Solano, William
Gaio, Nikolas
Silvestri, Cinzia
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Sensing and stimulating microstructures are necessary to develop more specialized and highly accurate Organ-on-Chip (OOC)
platforms. In this paper, we present the integration of a conductive polymer, poly (3,4-ethylenedioxythiophene) polystyrene
sulfonate (PEDOT:PSS), on a stretchable membrane, core element of an Heart-on-Chip. The electrical conductivity along with its
biocompatibility, high transparency (�����88 %) and mechanical elasticity (�����1.2 GPa) make this material a candidate to develop
novel microstructures for electrical monitoring and stimulation of cells in flexible-substrate based OOCs. Microstructures with
different shapes and geometries of PEDOT:PSS embedded in a 9 μm-thick Polydimethylsiloxane (PDMS) membrane are
developed following a wafer-level fabrication approach. PEDOT:PSS layers between 120 nm and 300 nm are obtained by
varying the deposition conditions. The layers are successfully patterned and microstructures with lateral dimensions down to 2
μm. The obtained results indicate that this polymer is a suitable material for microfabrication of sensing and stimulating elements
in OOC platforms.
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Procedia EngineeringShare
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