Abstract:
Inorganic light harvesting materials are revolutionizing the current research scope of Quantum
dot-sensitized solar cells (QDSSCs) day by day. However, it is challenging due to the issues in
toxicity and stability of existing light-harvesting materials. Herein, we present highly stable non
toxic bismuth trisulfide (Bi2S3) QDSSCs with iodide/triiodide redox couple electrolyte. The solar
cell is configured as FTO/TiO2 P90/TiO2 P25/Bi2S3/(I-/I-3) electrolyte/Pt. Bi2S3 Quantum Dots
(QDs) were fabricated onto the FTO/TiO2 P90/TiO2 P25 electrode at room temperature using the
Dip-Successive Ionic Layer Adsorption Reaction (Dip-SILAR) which is an easy and efficient
technique. Electron microscopic studies confirmed the homogeneous formation of the quantum
dots on the photoanode which have a range of sizes between 50 nm and 80 nm. QDSSCs with an
active cell area of 0.16 cm2 were characterized under an illumination of 100 mW cm-2 with 1.5
AM spectral filter and the results depicted that the best cell was able to achieve a power
conversion efficiency of 0.26% with an open circuit voltage of 482.9 mV and short circuit
current density of 1.05 mA cm-2. In order to enhance the stability of the solar cells,
Polyvinylpyrrolidone (PVP) based gel polymer electrolyte has been used. The high cost of
conventional light harvesting materials may be considerably reduced by one-step fabrication of
Bi2S3 using the SILAR technique.
