Login / Signup

Electron injection and defect passivation for high-efficiency mesoporous perovskite solar cells.

Jiale LiuXiayan ChenKaizhong ChenWenming TianYusong ShengBin SheYouyu JiangDeyi ZhangYang LiuJianhang QiKai ChenYongmin MaZexiong QiuChaoyang WangYanfeng YinShengli ZhaoJing LengShengye JinWenshan ZhaoYanyang QinYa-Qiong SuXiaoyu LiXiaojiang LiYang ZhouYinhua ZhouFuri LingAnyi MeiHongwei Han
Published in: Science (New York, N.Y.) (2024)
Printable mesoscopic perovskite solar cells (p-MPSCs) do not require the added hole-transport layer needed in traditional p-n junctions but have also exhibited lower power conversion efficiencies of about 19%. We performed device simulation and carrier dynamics analysis to design a p-MPSC with mesoporous layers of semiconducting titanium dioxide, insulating zirconium dioxide, and conducting carbon infiltrated with perovskite that enabled three-dimensional injection of photoexcited electrons into titanium dioxide for collection at a transparent conductor layer. Holes underwent long-distance diffusion toward the carbon back electrode, and this carrier separation reduced recombination at the back contact. Nonradiative recombination at the bulk titanium dioxide/perovskite interface was reduced by ammonium phosphate modification. The resulting p-MPSCs achieved a power conversion efficiency of 22.2% and maintained 97% of their initial efficiency after 750 hours of maximum power point tracking at 55 ± 5°C.
Keyphrases