High performance and self-powered photodetectors based on Se/CsPbBr3 heterojunctions

The inorganic perovskite CsPbBr3 has attracted much attention in photodetector fabrication. In this paper, Se/CsPbBr3 heterojunctions were prepared by a spin coating method by combining highly crystallized p-type Se microtubes (Se-MTs) and n-type CsPbBr3 nanoparticles. Se-MTs were deposited by chemical vapor deposition at a relatively low temperature of 330 degrees C. CsPbBr3 nanoparticles can enhance light absorption in the wavelength range of 350-550 nm, improving the optical response of p-n Se/CsPbBr3 junctions. The Se/CsPbBr3 heterojunction photodetectors exhibit excellent self-powered characteristics and a broadband spectral response range of 368-800 nm. Especially, under an illumination of 550 nm under zero bias voltage, Se/CsPbBr3 detectors exhibit maximum responsivity (47.6 mA W-1, 436% higher than that of pure Se-MT at 0.1 V), the highest specific detectivity of 4.9 x 10(10) Jones (two times higher than Se-MT at 0.1 V), a high on/off ratio of 235, and fast response speed (18/40 ms). Therefore, the low-cost and high responsivity make this device quite promising in broadband high-performance devices with self-powered detection.

Automated summary

In this paper, Se/CsPbBr3 heterojunctions were fabricated using a spin coating method, combining p-type Se microtubes and n-type CsPbBr3 nanoparticles. The resulting heterojunction photodetectors showed excellent self-powered characteristics and a broadband spectral response range. The low-cost and high responsivity of the Se/CsPbBr3 heterojunctions make them promising for high-performance devices with self-powered detection.