Performance-enhanced solar-blind photodetector based on CH3NH3PbI3/β-Ga2O3 hybrid structure

Solar-blind photodetectors have drawn great attention due to their excellent accuracy and precision ignoring the electromagnetic radiation interference from the sun. Here, we demonstrate a solar-blind photodetector by combining the inorganic wide bandgap semiconductor beta-Ga2O3 with organic-inorganic hybrid perovskite (CH3NH3PbI3) for the first time. The photodetector with an intelligent architecture design and assembly technique was developed via a facile and low-cost solution processing method. Compared with the pure beta-Ga2O3 photodetector, the performances of the device based on the CH3NH3PbI3/beta-Ga2O3 hybrid structure were significantly enhanced. The photo-to-dark current ratio is 1460, the responsivity and detectivity are 85 mA W-1 and 1.28 x 10(11) Jones, respectively. The device exhibits excellent reproducibility and stability under DUV light illumination, the rise and decay times are 0.11 and 0.45 s, respectively. The superior solar-blind/UVA rejection ratio (I-254nm/I-325nm) with a value of 221 indicates that our fabricated photodetector has an excellent sensitivity in the solar-blind region. This work can offer a new strategy to develop cheap and high-performance solar-blind photodetectors based on beta-Ga2O3.