Byoung Wook Kwon scite author profile

Hybrid nanostructures combining inorganic materials and graphene are being developed for applications such as fuel cells, batteries, photovoltaics and sensors. However, the absence of a bandgap in graphene has restricted the electrical and optical characteristics of these hybrids, particularly their emissive properties. Here, we use a simple solution method to prepare emissive hybrid quantum dots consisting of a ZnO core wrapped in a shell of single-layer graphene. We then use these quantum dots to make a white-light-emitting diode with a brightness of 798 cd m(-2). The strain introduced by curvature opens an electronic bandgap of 250 meV in the graphene, and two additional blue emission peaks are observed in the luminescent spectrum of the quantum dot. Density functional theory calculations reveal that these additional peaks result from a splitting of the lowest unoccupied orbitals of the graphene into three orbitals with distinct energy levels. White emission is achieved by combining the quantum dots with other emissive materials in a multilayer light-emitting diode.

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Two-Dimensionally Grown Single-Crystal Silicon Nanosheets with Tunable Visible-Light Emissions

Kim

Lee

Sung

et al. 2014

ACS Nano

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Since the discovery of graphene, growth of two-dimensional (2D) nanomaterials has greatly attracted attention. However, spontaneous growth of atomic two-dimensional (2D) materials is limitedly permitted for several layered-structure crystals, such as graphene, MoS2, and h-BN, and otherwise it is notoriously difficult. Here we report the gas-phase 2D growth of silicon (Si), that is cubic in symmetry, via dendritic growth and an interdendritic filling mechanism and to form Si nanosheets (SiNSs) of 1 to 13 nm in thickness. Thin SiNSs show strong thickness-dependent photoluminescence in visible range including red, green, and blue (RGB) emissions with the associated band gap energies ranging from 1.6 to 3.2 eV; these emission energies were greater than those from Si quantum dots (SiQDs) of the similar sizes. We also demonstrated that electrically driven white, as well as blue, emission in a conventional organic light-emitting diode (OLED) geometry with the SiNS assembly as the active emitting layers. Tunable light emissions in visible range in our observations suggest practical implications for novel 2D Si nanophotonics.

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Charge separation and ultraviolet photovoltaic conversion of ZnO quantum dots conjugated with graphene nanoshells

et al. 2012

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CF-CloudOrch: container fog node-based cloud orchestration for IoT networks

et al. 2018

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High efficiency ultraviolet photovoltaic cells based on ZnO–C₆₀core–shell QDs with organic–inorganic multilayer structure

et al. 2012

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Byoung Wook Kwon

Emissive ZnO–graphene quantum dots for white-light-emitting diodes

Two-Dimensionally Grown Single-Crystal Silicon Nanosheets with Tunable Visible-Light Emissions

Charge separation and ultraviolet photovoltaic conversion of ZnO quantum dots conjugated with graphene nanoshells

CF-CloudOrch: container fog node-based cloud orchestration for IoT networks

High efficiency ultraviolet photovoltaic cells based on ZnO–C₆₀core–shell QDs with organic–inorganic multilayer structure

Contact Info

Product

Resources

About

Byoung Wook Kwon

Emissive ZnO–graphene quantum dots for white-light-emitting diodes

Two-Dimensionally Grown Single-Crystal Silicon Nanosheets with Tunable Visible-Light Emissions

Charge separation and ultraviolet photovoltaic conversion of ZnO quantum dots conjugated with graphene nanoshells

CF-CloudOrch: container fog node-based cloud orchestration for IoT networks

High efficiency ultraviolet photovoltaic cells based on ZnO–C60core–shell QDs with organic–inorganic multilayer structure

Contact Info

Product

Resources

About

High efficiency ultraviolet photovoltaic cells based on ZnO–C₆₀core–shell QDs with organic–inorganic multilayer structure