Biocatalytically synthesized of water-soluble alkoxysulfonate-functionalized poly(3,4-ethylenedioxythiophene)

“…In addition, a new absorption band appeared in the visible light range of 400−750 nm under strong alkaline conditions during the dedoping process by using NaOH (Figure 1c). 27,43 It was assumed that this visible absorption band was attributed to the HOMO−LUMO transition within the undoped PEDOT-S chain. 19 The distribution of insoluble PEDOT:PSS within the hydrogel matrix can be affected by the polydisperse particle size and lead to a reduced conductivity.…”

“…Due to the hydrophobic PEDOT core being enveloped by excess hydrophilic PSS shells and resulting in a highly dispersed particle distribution and aggregation, the conductivity of PEDOT:PSS composite conductive hydrogel is poor. To address this, organic solvents like ethylene glycol or dimethyl sulfoxide are added to weaken the electrostatic interaction between PEDOT and PSS, strip the insulating agent PSS, and induce microphase separation, allowing more conductive PEDOT to participate in charge carrier transport and thereby enhancing conductivity. ,− Several studies have shown that polymer solubility and stability can be improved by incorporating hydrophilic side chains, such as phosphoric esters, sulfonate esters, or carboxylate groups . Notably, Chevrot et al documented the utilization of FeCl 3 as a catalyst in the polymerization of sulfonated PEDOT (PEDOT-S), but its purifying process was quite challenged due to the combination of sulfonic acid and iron ions .…”

Sensitive Wearable Strain Sensor Based on a Self-Doped Conductive Hydrogel

“…In addition, a new absorption band appeared in the visible light range of 400−750 nm under strong alkaline conditions during the dedoping process by using NaOH (Figure 1c). 27,43 It was assumed that this visible absorption band was attributed to the HOMO−LUMO transition within the undoped PEDOT-S chain. 19 The distribution of insoluble PEDOT:PSS within the hydrogel matrix can be affected by the polydisperse particle size and lead to a reduced conductivity.…”

“…Due to the hydrophobic PEDOT core being enveloped by excess hydrophilic PSS shells and resulting in a highly dispersed particle distribution and aggregation, the conductivity of PEDOT:PSS composite conductive hydrogel is poor. To address this, organic solvents like ethylene glycol or dimethyl sulfoxide are added to weaken the electrostatic interaction between PEDOT and PSS, strip the insulating agent PSS, and induce microphase separation, allowing more conductive PEDOT to participate in charge carrier transport and thereby enhancing conductivity. ,− Several studies have shown that polymer solubility and stability can be improved by incorporating hydrophilic side chains, such as phosphoric esters, sulfonate esters, or carboxylate groups . Notably, Chevrot et al documented the utilization of FeCl 3 as a catalyst in the polymerization of sulfonated PEDOT (PEDOT-S), but its purifying process was quite challenged due to the combination of sulfonic acid and iron ions .…”

Sensitive Wearable Strain Sensor Based on a Self-Doped Conductive Hydrogel

“…[91] For instance, peroxidases have been used for the oxidative polymerization of poly(3,4-ethylenedioxythiophene)sulfonate (PEDOT-S) and poly(3,4-ethylenedioxythiophene) (PEDOT). [92,93]…”

Biosourced Monomers: Toward Sustainable Conjugated Polymers for Organic Electronics

“…Horseradish peroxidase was used for polymerization of a water soluble derivative of EDOT without a template. 33 The laccase from the fungus Trametes hirsuta was applied to EDOT polymerization on the so templates (PAMPS, PSS, DNA). [34][35][36] As was mentioned above, CNTs are a promising material for SC electrodes.…”

Enzymatic synthesis and electrochemical characterization of sodium 1,2-naphthoquinone-4-sulfonate-doped PEDOT/MWCNT composite