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Relationship between enhancement of <scp>PEDOT</scp>:<scp>PSS</scp> conductivity by solvent treatment and <scp>PSS</scp> chain reorganization

Chaima Tounakti, Philippe Decorse, Fayçal Kouki, Philippe Lang

2023Journal of Polymer Science25 citationsDOI

Abstract

Abstract The treatment of water‐soluble PEDOT:PSS copolymer film by DMSO or DMF considerably enhances its electrical conductivity. The mechanism leading to a new molecular conformation in the PEDOT:PSS layer was investigated by in situ ATR, PM‐IRRAS and XPS spectroscopies. The release of PSS chains containing excess [Na + , (−Φ‐SO 3 − )‐] and (−Φ‐SO 3 H)‐] moieties by the solvent treatment and the implications of this process are discussed. By comparison with a NaPSS/HPSS adduct, the essential role of the conformational reorganization of the poly(styrene sulfonic/sulfonate) chains via hydrogen bonds between SO 3 H functions is demonstrated. Residual water molecules play a fundamental role both in the removal of excess sulfonates or sulfonic groups, the separation of the (Na, H, PSS) chains, which can then be extracted, and the establishment of the suitable PEDOT conformation.

Topics & Concepts

PEDOT:PSSSulfonateSolventStyreneCopolymerHydrogen bondPolymer chemistryMoleculeSulfonic acidNanoclustersChemistryChemical engineeringX-ray photoelectron spectroscopyConductivityMaterials sciencePolymerOrganic chemistryPhysical chemistrySodiumEngineeringConducting polymers and applicationsAdvanced Sensor and Energy Harvesting MaterialsFuel Cells and Related Materials
Relationship between enhancement of <scp>PEDOT</scp>:<scp>PSS</scp> conductivity by solvent treatment and <scp>PSS</scp> chain reorganization | Litcius