Researchers at Queensland University of Technology (QUT) have developed an eco-friendly method to fabricate perovskite solar cells (PSCs) by incorporating a fluoride additive into a water-based solution. This approach eliminates the use of toxic solvents typically required in PSC production, while achieving power conversion efficiencies above 18%.
The team introduced lead(II) fluoride (PbF2) into the water-based precursor solution to regulate crystal growth dynamics and improve film quality. The fluoride additive accelerated the formation of the photoactive phase and promoted the crystallization orientation, both critical for efficient solar energy conversion.
Additionally, the high electronegativity of fluoride ions helped passivate surface defects on perovskite grains, reducing energy losses and enhancing charge transport.
"With the PbF2 additive, we achieved a power conversion efficiency of 18.1%, compared to 16.3% in the control device," said Dr. Minh Tam Hoang, postdoctoral researcher at QUT and author of the study. "Even more exciting is the improved operational and environmental stability, which brings us closer to scalable, green manufacturing of PSCs."
This research provides an effective strategy to produce stable, high-efficiency PSCs using water solvent—making the technology more viable for commercial production and reducing environmental impacts. The study also highlights the growing importance of fluoride-based additives in green chemistry and sustainable energy technologies.
