▎ 摘　　要

Colloidal quantum dots (QDs) combined with a graphene charge transducer promise to provide a photoconducting platform with high quantum efficiency and large intrinsic gain, yet compatible with cost-efficient polymer substrates. The response time in these devices is limited, however, and fast switching is only possible by sacrificing the high sensitivity. Furthermore, tuning the QD size toward infrared absorption using conventional organic capping ligands progressively reduces the device performance characteristics. Here we demonstrate methods to couple large QDs (>6 nm in diameter) with organometal halide perovskites, enabling hybrid graphene photo transistor arrays on plastic foils that simultaneously exhibit a specific detectivity of 5 X 10(12) Jones and high video-frame-rate performance. PbI2, and CH3NH3I co-mediated ligand exchange in PbS QDs improves surface passivation and facilitates electronic transport, yielding faster charge recovery, whereas Pbs QDs embedded into a CH3NH3PbI3 matrix produce spatially separated photocarriers leading to large gain.