PCE10 Significantly Improves Red and Near-infrared Light Detection Capabilities of Ternary Photomultiplication-type Organic Photodetectors

Photodetectors with strong near-infrared response are more conducive to detecting human heart rate. Furthermore，broadband photodetectors with a response range covering both red and near-infrared region can be used to detect blood oxygen saturation. Therefore，improving the red and near-infrared response capabilities of broadband photodetectors is of great significance. However，classic binary bulk-heterojunction broadband photomultiplication-type organic photodetectors typically exhibit weak or even no response to red and near-infrared light due to significant ratio-difference between donor and acceptor in the active layer. This paper fabricates ternary bulk-heterojunction photomultiplication-type organic photodetectors with a structure of ITO/PEDOT∶PSS/P3HT∶PCE10∶IEICO-4F（90∶10∶ 1）/Al by using a small amount of donor material PCE10 to replace some of P3HT in the active layer of P3HT∶IEICO-4F（100∶1）. Under -20 V bias，the ternary devices obtain a relatively even EQE spectrum from ultraviolet to near-infrared（330-810 nm），with the EQEs at 660 nm and 810 nm（134000% and 147000%）being 78 and 106 times as large as those of the binary devices under same conditions，and corresponding detectivity values（5. 4×1013 Jones and 7. 27×1013 Jones）being increased by 26 and 36 times，respectively. The red and near-infrared light detection capabilities of ternary devices have been significantly improved，providing a strategy for fabricating high-performance photodetectors to detect human heart rate and blood oxygen saturation. © 2023 Chines Academy of Sciences. All rights reserved.