Enhanced morphology, crystallinity and conductivity of poly (3,4-ethyldioxythiophene)/ErGO composite films by in situ reduction of TrGO partially reduced on PEDOT modified electrode

- PEDOT/TrGO composite electrode prepared via electrochemical methods.
- PEDOT/ErGO composite was prepared by a simple in situ reduction of PEDOT/TrGO.
- PEDOT- ErGO interaction results in improved electrical properties.
- The PEDOT/ErGO composite exhibits an increase of film crystallinity and porosity.

In this work, novel composites obtained by electrochemical reduction of graphene oxide (ErGO)/poly(3,4-ethylenedioxythiophene), PEDOT, have been prepared by partially reduced (TrGO) graphene oxide reduction inside the polymer. Composites were characterized using different techniques namely, RAMAN, XRD, FESEM, HR-TEM and XPS. The results showed that the conductivity of PEDOT/ErGO significantly improves on TrGO reduction. In fact, doping-undoping process increased 10-fold and the electrochemical response showed a 2-fold increase as compared with PEDOT and PEDOT/TrGO. RAMAN, XRD and XPS allowed corroborating that CO bonds disappeared in PEDOT/ErGO composites suggesting a partial removal of oxygen-containing groups. FESEM and HR-TEM images exhibited a uniform and porous structure of the PEDOT/ErGO composite. On the other hand, the reduction of TrGO, improves the composite specific surface area. As a result, the PEDOT/ErGO composite presents much higher electrochemical response in comparison with PEDOT and PEDOT/TrGO. The electrochemical properties put them into a promising position as a potential material for energy storage devices, e.g. super capacitors, batteries and biosensors, due to the permeable film with defined pore sizes that PEDOT/ErGO showed.

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