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Conductive organic electrodes for flexible electronic devices

Amrita Chakraborty, Daniel J. Herrera, Payton Fallen, Daniel E. Hall, Nicholas Bampton, Thomas Olivero, Marius Orlowski

2023Scientific Reports25 citationsDOIOpen Access PDF

Abstract

The paper reports on a novel process flow to manufacture conductive organic electrodes from highly conductive doped PEDOT:PSS polymer films that can be patterned and display a good adhesion to oxidized Si wafers as well as to flexible substrates, such as Mylar. Among other results, it is shown that multiple depositions of PEDOT:PSS increase the electrical conductivity by more than two orders of magnitude without increasing the film thickness of PEDOT:PSS significantly. An exponential dependence between sheet resistance and the number of PEDOT:PSS coatings has been found. The electrical conductivity of PEDOT:PSS can be increased by another two orders of magnitude doping with Cu nanoparticles when coated on the surface of a soft-baked PEDOT:PSS film. It is found, however, that both kinds of conductivity enhancement are not additive. Adhesion of PEDOT:PSS to oxidized Si wafers and BoPET (Mylar) has been ensured by applying an oxygen plasma cleaning step before spin coating. The manufactured high-conductivity PEDOT:PSS film can be patterned using a sacrificial metal layer with subsequent etching of PEDOT:PSS in oxygen plasma, followed by the removal of the patterned segments of the sacrificial metal layer in an aqueous acid solution.

Topics & Concepts

PEDOT:PSSMaterials scienceConductive polymerWaferConductivitySheet resistanceElectrodeLayer (electronics)Electrical conductorDopingCoatingComposite materialElectrical resistivity and conductivityNanotechnologyChemical engineeringPolymerOptoelectronicsChemistryEngineeringPhysical chemistryElectrical engineeringConducting polymers and applicationsAdvanced Sensor and Energy Harvesting MaterialsOrganic Electronics and Photovoltaics
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