High-performance self-powered color filter-free blue photodetector based on wide-bandgap halide perovskites

•MAPbX3-based blue perovskite photodetector (PPD) is demonstrated for the first time.•Optimal composition is obtained through the halide-composition engineering.•The PD properties were further increased by improving a light harvesting efficiency.•Our champion blue PPD showed outstanding performances...

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Bibliographic Details
Published in:Journal of materials science & technology 2023-07, Vol.152, p.100-108
Main Authors: Yun, Yeonghun, Cho, Hanbyeol, Jung, Jina, Yang, Sung Woong, Vidyasagar, Devthade, Gunasekaran, Rajendra Kumar, Lee, Sangwook
Format: Article
Language:English
Subjects:
Blue
Composition engineering
Perovskites
Photodetectors
Self-powered
Wide bandgap
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Summary:•MAPbX3-based blue perovskite photodetector (PPD) is demonstrated for the first time.•Optimal composition is obtained through the halide-composition engineering.•The PD properties were further increased by improving a light harvesting efficiency.•Our champion blue PPD showed outstanding performances comparable to commercial PDs.•Besides, the device exhibited excellent environmental durability under ambient air. Blue photodetectors (PDs) are attracting great attention for various applications. Commercial blue PDs based on inorganic GaP or InGaN absorbers are limited by their expensive, complex, and high-temperature fabrication techniques. Organic absorber-based blue PDs still have much lower photodetecting properties than inorganic blue PDs. In this study, a high-performance self-powered blue PD is developed using methylammonium lead halide (MAPbX3; X = I, Br, and Cl) perovskites based on the economic and facile solution process at low temperatures. Optimal composition is obtained through halide-composition engineering. Our best-performing device exhibits an average external quantum efficiency and an average detectivity of 42.7% and 8.65 × 1011 Jones, respectively, within the blue region. The peak responsivity of the proposed PD is 0.174 A W−1 at 455 nm, which is comparable to that of commercial gallium phosphide blue PD (0.180 A W−1 at 470 nm). Moreover, the proposed device exhibits excellent environmental stability under ambient air conditions. These findings will act as a basis for next-generation image sensor technologies, such as vertically stacked red/green/blue PDs. [Display omitted]
ISSN:1005-0302
1941-1162
DOI:10.1016/j.jmst.2022.12.041