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Methods to Enhance Electrical Conductivity of PEDOT: PSS-based Electrodes
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This paper extends our prior study on enhancing Poly (3,4- ethylenedioxythiophene) Polystyrene Sulfonate (PEDOT:PSS) electrical conductivity. We explore various methods, including acid treatments, metal nanoparticle doping (Cu and Ag), multiple PEDOT:PSS layer depositions, and mono/multiatomic layer graphene insertion. Our findings reveal that optimizing PEDOT:PSS multilayer depositions and the treatment with nitric acid surpasses the effectiveness of additional methods using metal nanoparticles and graphene. This optimized process not only enhances PEDOT:PSS electrical conductivity but also proves less error-prone, more stable, and more cost-effective than using graphene layers and metal nanoparticles. Optimization factors include spinning speed, etchant concentration, and etching time. Compared to a single-layer PEDOT:PSS of the same thickness, the optimized multilayer PEDOT:PSS treated with nitric acid shows a reduction in sheet resistance from 1 MΩ/sq to 7 Ω/sq. Additionally, we account for film aging to mitigate ambient-induced reliability effects. Keywords: Polystyrene Sulfonate; Metal Nanoparticle
ASEAN Federation for Psychiatry and Mental Health
Title: Methods to Enhance Electrical Conductivity of PEDOT: PSS-based Electrodes
Description:
This paper extends our prior study on enhancing Poly (3,4- ethylenedioxythiophene) Polystyrene Sulfonate (PEDOT:PSS) electrical conductivity.
We explore various methods, including acid treatments, metal nanoparticle doping (Cu and Ag), multiple PEDOT:PSS layer depositions, and mono/multiatomic layer graphene insertion.
Our findings reveal that optimizing PEDOT:PSS multilayer depositions and the treatment with nitric acid surpasses the effectiveness of additional methods using metal nanoparticles and graphene.
This optimized process not only enhances PEDOT:PSS electrical conductivity but also proves less error-prone, more stable, and more cost-effective than using graphene layers and metal nanoparticles.
Optimization factors include spinning speed, etchant concentration, and etching time.
Compared to a single-layer PEDOT:PSS of the same thickness, the optimized multilayer PEDOT:PSS treated with nitric acid shows a reduction in sheet resistance from 1 MΩ/sq to 7 Ω/sq.
Additionally, we account for film aging to mitigate ambient-induced reliability effects.
Keywords: Polystyrene Sulfonate; Metal Nanoparticle.
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