Joo Hyung Park scite author profile

Highly uniform InGaN-based quantum dots (QDs) grown on a nanopatterned dielectric layer defined by self-assembled diblock copolymer were performed by metal-organic chemical vapor deposition. The cylindrical-shaped nanopatterns were created on SiNx layers deposited on a GaN template, which provided the nanopatterning for the epitaxy of ultra-high density QD with uniform size and distribution. Scanning electron microscopy and atomic force microscopy measurements were conducted to investigate the QDs morphology. The InGaN/GaN QDs with density up to 8 × 1010 cm-2 are realized, which represents ultra-high dot density for highly uniform and well-controlled, nitride-based QDs, with QD diameter of approximately 22-25 nm. The photoluminescence (PL) studies indicated the importance of NH3 annealing and GaN spacer layer growth for improving the PL intensity of the SiNx-treated GaN surface, to achieve high optical-quality QDs applicable for photonics devices.

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Simulations of chalcopyrite/c-Si tandem cells using SCAPS-1D

Kim

et al. 2017

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Iron pyrite thin films deposited via non-vacuum direct coating of iron-salt/ethanol-based precursor solutions

et al. 2014

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Joo Hyung Park

Semitransparent and bifacial ultrathin Cu(In,Ga)Se2 solar cells via a single-stage process and light-management strategy

Development of semitransparent CIGS thin-film solar cells modified with a sulfurized-AgGa layer for building applications

Selective area epitaxy of ultra-high density InGaN quantum dots by diblock copolymer lithography

Simulations of chalcopyrite/c-Si tandem cells using SCAPS-1D

Iron pyrite thin films deposited via non-vacuum direct coating of iron-salt/ethanol-based precursor solutions

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