Colloidal Quantum Dot Light-Emitting Diodes Employing Phosphorescent Small Organic Molecules as Efficient Exciton Harvesters
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Date
2014
Journal Title
Journal ISSN
Volume Title
Publisher
Amer Chemical Soc
Open Access Color
BRONZE
Green Open Access
Yes
OpenAIRE Downloads
82
OpenAIRE Views
146
Publicly Funded
No
BIP! Indicators
Impulse
Top 10%
Influence
Top 10%
Popularity
Top 10%
Abstract
Nonradiative energy transfer (NRET) is an alternative excitation mechanism in colloidal quantum dot (QD) based electroluminescent devices (QLEDs). Here, we develop hybrid highly spectrally pure QLEDs that facilitate energy transfer pumping via NRET from a phosphorescent small organic molecule-codoped charge transport layer to the adjacent QDs. A partially codoped exciton funnelling electron transport layer is proposed and optimized for enhanced QLED performance while exhibiting very high color purity of 99%. These energy transfer pumped hybrid QLEDs demonstrate a 6-fold enhancement factor in the external quantum efficiency over the conventional QLED structure, in which energy transfer pumping is intrinsically weak.
Description
Mutlugun, Evren/0000-0003-3715-5594; Zhang, Yixi/0000-0002-3715-8560; Demir, Hilmi Volkan/0000-0003-1793-112X; Abiyasa, Agus Putu/0000-0001-6911-1516; Sun, Xiaowei/0000-0002-2840-1880
Keywords
Triplet State Harvesting, Hybrid Light-Emitting Diodes, Colloidal Quantum Dots, Nonradiative Energy Transfer, Phosphorescent Molecules, Nonradiative energy transfer, nonradiative energy transfer, Triplet state, colloidal quantum dots, Optoelectronic devices, Light emission, Energy-transfer, Complex, Devices, Semiconductor quantum dots, Films, hybrid light-emitting diodes, COMPLEX, Phosphorescence, Colloidal quantum dots, triplet state harvesting, Phosphorescent molecules, Hybrid light-emitting diodes, Molecules, Light emitting diodes, Nanocrystals, NANOCRYSTALS, Electroluminescence, Energy transfer, Triplet state harvesting, Excitons, phosphorescent molecules, ENERGY-TRANSFER
Fields of Science
02 engineering and technology, 0210 nano-technology
Citation
WoS Q
Q1
Scopus Q
Q1
OpenCitations Citation Count
46
Source
Journal of Physical Chemistry Letters
Volume
5
Issue
16
Start Page
2802
End Page
2807
PlumX Metrics
Citations
CrossRef : 40
Scopus : 48
Patent Family : 1
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Mendeley Readers : 45
SCOPUS™ Citations
49
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Web of Science™ Citations
48
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Page Views
4
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Downloads
2
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