Dynamical characteristics of AC-driven hybrid WSe2 monolayer/AlGaInP quantum wells light-emitting device

The exploration of functional light-emitting devices and numerous optoelectronic applications can be accomplished on an elegant platform provided by rapidly developing transition metal dichalcogenides (TMDCs). However, TMDCs-based light emitting devices encounter certain serious difficulties, such a...

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Published in:Discover nano 2023-11, Vol.18 (1), p.140-140, Article 140
Main Authors: Konthoujam, James Singh, Lin, Yen-Shou, Chang, Ya-Hui, Lin, Hsiang-Ting, Chang, Chiao-Yun, Zhang, Yu-Wei, Lin, Shih-Yen, Kuo, Hao-Chung, Shih, Min-Hsiung
Format: Article
Language:English
Subjects:
Aluminum gallium indium phosphides
Chemistry and Materials Science
Color
Contact resistance
Display devices
Emitters
Frequency dependence
Heterostructures
High resistance
Light
Light emission
Materials Science
Molecular Medicine
Monolayers
Multi Quantum Wells
Nanochemistry
Nanoscale Science and Technology
Nanotechnology
Nanotechnology and Microengineering
Optoelectronic devices
RC circuits
Transition metal compounds
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Summary:The exploration of functional light-emitting devices and numerous optoelectronic applications can be accomplished on an elegant platform provided by rapidly developing transition metal dichalcogenides (TMDCs). However, TMDCs-based light emitting devices encounter certain serious difficulties, such as high resistance losses from ohmic contacts or the need for complex heterostructures, which restricts the device applications. Despite the fact that AC-driven light emitting devices have developed ways to overcome these challenges, there is still a significant demand for multiple wavelength emission from a single device, which is necessary for full color light emitting devices. Here, we developed a dual-color AC-driven light-emitting device by integrating the WSe 2 monolayer and AlGaInP–GaInP multiple quantum well (MQW) structures in the form of capacitor structure using AlOx insulating layer between the two emitters. In order to comprehend the characteristics of the hybrid device under various driving circumstances, we investigate the frequency-dependent EL intensity of the hybrid device using an equivalent RC circuit model. The time-resolved electroluminescence (TREL) characteristics of the hybrid device were analyzed in details to elucidate the underlying physical mechanisms governing its performance under varying applied frequencies. This dual-color hybrid light-emitting device enables the use of 2-D TMDC-based light emitters in a wider range of applications, including broad-band LEDs, quantum display systems, and chip-scale optoelectronic integrated systems. Graphical Abstract
ISSN:2731-9229
1931-7573
2731-9229
1556-276X
DOI:10.1186/s11671-023-03920-7