Carrier lifetimes of >1 μs in Sn-Pb perovskites enable efficient all-perovskite tandem solar cells.
Jinhui TongZhaoning SongDong Hoe KimXihan ChenCong ChenAxel F PalmstromPaul F NdioneMatthew O ReeseSean P DunfieldObadiah G ReidJun LiuFei ZhangSteven P HarveyZhen LiSteven T ChristensenGlenn R TeeterDewei ZhaoMowafak M Al-JassimMaikel F A M van HestMatthew C BeardSean E ShaheenJoseph J BerryYanfa YanKai ZhuPublished in: Science (New York, N.Y.) (2019)
All-perovskite-based polycrystalline thin-film tandem solar cells have the potential to deliver efficiencies of >30%. However, the performance of all-perovskite-based tandem devices has been limited by the lack of high-efficiency, low-band gap tin-lead (Sn-Pb) mixed-perovskite solar cells (PSCs). We found that the addition of guanidinium thiocyanate (GuaSCN) resulted in marked improvements in the structural and optoelectronic properties of Sn-Pb mixed, low-band gap (~1.25 electron volt) perovskite films. The films have defect densities that are lower by a factor of 10, leading to carrier lifetimes of greater than 1 microsecond and diffusion lengths of 2.5 micrometers. These improved properties enable our demonstration of >20% efficient low-band gap PSCs. When combined with wider-band gap PSCs, we achieve 25% efficient four-terminal and 23.1% efficient two-terminal all-perovskite-based polycrystalline thin-film tandem solar cells.