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A High‐Efficiency Wavelength‐Tunable Monolayer LED with Hybrid Continuous‐Pulsed Injection

Yi Zhu, Bowen Wang, Ziyuan Li, Jian Zhang, Yilin Tang, Juan F. Torres, Wojciech Lipiński, Lan Fu, Yuerui Lu

2021Advanced Materials25 citationsDOI

Abstract

Abstract High‐efficiency and wavelength‐tunable light‐emitting diode (LED) devices will play an important role in future advanced optoelectronic systems. Traditional semiconductor LED devices typically have a fixed emission wavelength that is determined by the energy of the emission states. Here, a novel high‐efficiency and wavelength‐tunable monolayer WS 2 LED device, which operates in the hybrid mode of continuous‐pulsed injection, is developed. This hybrid injection enables highly enhanced emission efficiency (>20 times) and effective size of emission area (>5 times) at room temperature. The emission wavelength of the WS 2 monolayer LED device can be tuned over more than 40 nm by driving AC voltages, from exciton emission to trion emission, and further to defect emission. The quantum efficiency of defect electroluminescence (EL) emission is measured to be more than 24.5 times larger than that from free exciton and trion EL emission. The separate carrier injection in the LED also demonstrates advantages in allowing defect species to be visualized and distinguished in real space. Those defects are assigned to be negatively charged defects. The results open a new route to develop high‐performance and wavelength‐tunable LED devices for future advanced optoelectronic applications.

Topics & Concepts

Materials scienceTrionOptoelectronicsMonolayerElectroluminescenceExcitonWavelengthDiodeLight-emitting diodeQuantum efficiencyLight emissionSemiconductorQuantum dotNanotechnologyLayer (electronics)PhysicsQuantum mechanics2D Materials and ApplicationsPerovskite Materials and ApplicationsGaN-based semiconductor devices and materials
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