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Spectra Stable Quantum Dots Enabled by Band Engineering for Boosting Electroluminescence in Devices
by
Hu, Junxia
, Lyu, Bingbing
, Chen, Yani
, Ma, Zhiwei
in
band engineering
/ Cadmium sulfide
/ charge injection balance
/ Confinement
/ Current efficiency
/ Design and construction
/ Efficiency
/ Electroluminescence
/ electroluminescent devices
/ Ethanol
/ Glass substrates
/ Interlayers
/ Light-emitting diodes
/ Optical properties
/ Quantum dots
/ Radiative recombination
/ Zinc oxides
2022
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Spectra Stable Quantum Dots Enabled by Band Engineering for Boosting Electroluminescence in Devices
by
Hu, Junxia
, Lyu, Bingbing
, Chen, Yani
, Ma, Zhiwei
in
band engineering
/ Cadmium sulfide
/ charge injection balance
/ Confinement
/ Current efficiency
/ Design and construction
/ Efficiency
/ Electroluminescence
/ electroluminescent devices
/ Ethanol
/ Glass substrates
/ Interlayers
/ Light-emitting diodes
/ Optical properties
/ Quantum dots
/ Radiative recombination
/ Zinc oxides
2022
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Do you wish to request the book?
Spectra Stable Quantum Dots Enabled by Band Engineering for Boosting Electroluminescence in Devices
by
Hu, Junxia
, Lyu, Bingbing
, Chen, Yani
, Ma, Zhiwei
in
band engineering
/ Cadmium sulfide
/ charge injection balance
/ Confinement
/ Current efficiency
/ Design and construction
/ Efficiency
/ Electroluminescence
/ electroluminescent devices
/ Ethanol
/ Glass substrates
/ Interlayers
/ Light-emitting diodes
/ Optical properties
/ Quantum dots
/ Radiative recombination
/ Zinc oxides
2022
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Spectra Stable Quantum Dots Enabled by Band Engineering for Boosting Electroluminescence in Devices
Journal Article
Spectra Stable Quantum Dots Enabled by Band Engineering for Boosting Electroluminescence in Devices
2022
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Overview
The band level landscape in quantum dots is of great significance toward achieving stable and efficient electroluminescent devices. A series of quantum dots with specific emission and band structure of the intermediate layer is designed, including rich CdS (R-CdS), thick ZnSe (T-ZnSe), thin ZnSe (t-ZnSe) and ZnCdS (R-ZnCdS) intermediate alloy shell layers. These quantum dots in QLEDs show superior performance, including maximum current efficiency, external quantum efficiencies and a T50 lifetime (at 1000 cd/m2) of 47.2 cd/A, 11.2% and 504 h for R-CdS; 61.6 cd/A, 14.7% and 612 h for t-ZnSe; 70.5 cd/A, 16.8% and 924 h for T-ZnSe; and 82.0 cd/A, 19.6% and 1104 h for R-ZnCdS. Among them, the quantum dots with the ZnCdS interlayer exhibit deep electron confinement and shallow hole confinement capabilities, which facilitate the efficient injection and radiative recombination of carriers into the emitting layer. Furthermore, the optimal devices show a superior T50 lifetime of more than 1000 h. The proposed novel methodology of quantum dot band engineering is expected to start a new way for further enhancing QLED exploration.
Publisher
MDPI AG,MDPI
Subject
/ Ethanol
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