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Enhanced UV Emission of GaN Nanowires Functionalized by Wider Band Gap Solution-Processed p-MnO Quantum Dots.


ABSTRACT: GaN-based UV light-emitting devices suffer from low efficiency. To mitigate this issue, we hybridized GaN nanowires (NWs) grown on Si substrates by plasma-assisted molecular beam epitaxy with solution-processed p-type MnO quantum dots (QDs) characterized by a wider band gap (?5 eV) than that of GaN. Further investigations reveal that the photoluminescence intensity of the GaN NWs increases up to ?3.9-fold (?290%) after functionalizing them with p-MnO QDs, while the internal quantum efficiency is improved by ?1.7-fold. Electron energy loss spectroscopy (EELS) incorporated into transmission electron microscopy reveals an increase in the density of states in QD-decorated NWs compared to the bare ones. The advanced optical and EELS analyses indicate that the energy transfer from the wider band gap p-MnO QDs to n-GaN NW can lead to substantial emission enhancement and greater radiative recombination contribution because of the good band alignment between MnO QDs and GaN NWs. This work provides valuable insights into an environmentally friendly strategy for improving UV device performance.

SUBMITTER: Almalawi D 

PROVIDER: S-EPMC7497627 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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Enhanced UV Emission of GaN Nanowires Functionalized by Wider Band Gap Solution-Processed p-MnO Quantum Dots.

Almalawi Dhaifallah D   Lopatin Sergei S   Mitra Somak S   Flemban Tahani T   Siladie Alexandra-Madalina AM   Gayral Bruno B   Daudin Bruno B   Roqan Iman S IS  

ACS applied materials & interfaces 20200717 30


GaN-based UV light-emitting devices suffer from low efficiency. To mitigate this issue, we hybridized GaN nanowires (NWs) grown on Si substrates by plasma-assisted molecular beam epitaxy with solution-processed p-type MnO quantum dots (QDs) characterized by a wider band gap (∼5 eV) than that of GaN. Further investigations reveal that the photoluminescence intensity of the GaN NWs increases up to ∼3.9-fold (∼290%) after functionalizing them with p-MnO QDs, while the internal quantum efficiency is  ...[more]

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