Abstract:
Developing an e cient material as a counter electrode (CE) with excellent catalytic activity, intrinsic
stability, and low cost is essential for the commercial application of dye-sensitized solar cells (DSSCs).
Photovoltaic properties DSSCs fabricated with low-cost and platinum-free CEs based on different
mixtures of carbon allotropes graphite (GR), activated carbon (AC) and PEDOT: PSS lms. The DSSCs
assembled with PEDOT: PSS/GR/AC showed an impressive photovoltaic conversion e ciency of 4.60%,
compared to 4.06% for DSSCs with GR/AC CE or 1.66% for PEDOT: PSS alone or 6.56 % for Pt under the
illumination 100 mW cm− 2 (AM 1.5 G) due to the superior electrocatalytic activity and the conductivity of
AC and PEDOT: PSS. The fabricated carbon counter electrodes were extensively characterized by using
scanning electron microscopy (SEM), X-ray diffraction (XRD), Raman spectroscopy, cyclic voltammetry
(CV), Tafel measurements and electrochemical impedance spectroscopy (EIS). The CV, EIS and Tafel
measurements indicated that the PEDOT: PSS/Graphite/AC composite lm has low charge-transfer
resistance on the electrolyte/CE interface and high catalytic activity for the reduction of triiodide to
iodide than the GR/AC CEs. It is potentially feasible that such a carbon conguration can be used as a
counter electrode, replacing the more expensive Pt in DSSCs.
