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https://doi.org/10.1002/admi.202001464
Copy DOIJournal: Advanced Materials Interfaces | Publication Date: Nov 16, 2020 |
Citations: 19 |
AbstractPbS based low dimensional heterostructures have shown promising IR photodetector applications, arising from the multiple exciton effect. However, owing to the difficulty in controlling the size, shape, nucleation, and growth of PbS nanorods, it remains a significant challenge to construct PbS nanorods array heterostructures with precisely controlled orientation, morphology, dimensionality, and spatial distribution of each component. Here, an electrochemical atomic layer epitaxial growth method is reported to prepare the PbS nanorods array‐graphene heterostructures by engineering the structures, sizes, dimensionalities, and morphologies lattice parameters of PbS. In these heterostructures, PbS nanorods selectively grow along (200) orientation on graphene film by adjusting the underpotential deposition. The high‐oriented PbS nanorods‐graphene heterostructure's growth dynamics are confirmed by comparing the extreme polarization of graphene, resulting in controllable growth orientation and nucleation. Furthermore, the PbS nanorods‐graphene heterostructure photodetector presents an extraordinary photoresponsivity in exceeding 10.4 A W−1 and figure‐of‐merit detection D* ≈ 2.98 × 109 Jones is demonstrated in 2.7 µm at room temperature. The selective epitaxial growth of PbS nanorods opens the way to synthesize different hierarchical heterostructures with tunable architectures and dimensionalities, which can process various promising applications.
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