Efficient FAPbI-PbS quantum dot graphene-based phototransistors

The high mobility of charge carriers in graphene (G) together with the ease of processing and tunable optical properties of colloidal quantum dots (CQD) has provided high-performance hybrids for the next generation of phototransistors. In order to get a higher quality film of PbS QDs, understanding...

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Veröffentlicht in:New journal of chemistry 2021-08, Vol.45 (34), p.15285-15293
Hauptverfasser: Aynehband, Samaneh, Mohammadi, Maryam, Poushimin, Rana, Nunzi, Jean-Michel, Simchi, Abdolreza
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Zusammenfassung:The high mobility of charge carriers in graphene (G) together with the ease of processing and tunable optical properties of colloidal quantum dots (CQD) has provided high-performance hybrids for the next generation of phototransistors. In order to get a higher quality film of PbS QDs, understanding the effect of the ligand exchange method is critical. So, to improve the interdot electronic coupling, we propose a new conducting ligand to prepare a dense and self-assembled active layer of FAPbI 3 -PbS quantum dots on G/Si/SiO 2 substrates. Quantum dot (QD) nanocrystalline films were prepared via two different procedures: liquid phase ligand exchange (LPE) and solid phase ligand exchange (SPE). SPE with formamidinium lead iodide significantly increases the packing density and surface coverage of the active layer on the graphene substrate. Efficient light absorption in the near IR region and reduced charge transport resistance in the QD film are demonstrated. The SPE fabricated graphene-based heterostructure phototransistors exhibit improved specific detectivity (by 34%) and I ON / I OFF ratio (by 23%) as compared with LPE. Our findings pave a way to develop high-throughout graphene-based phototransistors based on FAPbI 3 -CQDs. PbS quantum dots capped with formamidinium ligands were deposited as graphene-based photodetectors. Solid phase exchange improves the infrared photo-detectivity.
ISSN:1144-0546
1369-9261
DOI:10.1039/d1nj03139b