Pioneering Two-Dimensional Perovskites Featuring Four-Layer Organic Spacers for Polarization-Sensitive Photodetection

Hybrid perovskites have great potential in photovoltaics and photodetection. Specially, two-dimensional (2D) hybrid perovskites have been discovered to show distinctive applications in polarization-sensitive photodetection due to their intrinsic anisotropy. Herein, we designed a new type of 2D perovskite by introducing bifunctional alkylammonium as an organic spacer, (beta-Ala)(4)PbBr4 (1, where beta-Ala(+) is 3-aminopropanoic), which has four organic spacers in adjacent inorganic layers and adjacent organic layers are linked by hydrogen bonding. The pioneering structure with four organic spacers enables an intrinsic high strong anisotropy, facilitating polarization-sensitive detection. The analysis of the crystal structure and optical properties further elucidates the natural anisotropic properties of 1. Strikingly, 1 has a strong optical dichroism (alpha(c)/alpha(b) approximate to 7.4 in 405 nm), and the polarization-sensitive detector on single crystals of 1 exhibits a large polarization ratio (I-max/I-min approximate to 2.0). This result highlights that the employment of bifunctional cations is efficient to explore new type 2D perovskites for potentially high-performance polarization-sensitive detection.

Automated summary

Hybrid perovskites, particularly two-dimensional (2D) perovskites, have shown great potential in polarization-sensitive photodetection. By introducing bifunctional alkylammonium, a new type of 2D perovskite (beta-Ala)(4)PbBr4 with intrinsic anisotropy and strong optical dichroism has been designed, demonstrating efficient polarization-sensitive detection.