A Room Temperature Polariton Light-Emitting Diode Based on Monolayer WS2
Jie Gu, Biswanath Chakraborty, Mandeep Khatoniar, and Vinod M. Menon

TL;DR
This paper reports the first room-temperature electrically driven polariton LED using monolayer WS2, demonstrating a significant step towards ultrafast, electrically powered light sources based on atomically thin materials.
Contribution
The authors demonstrate a novel electrically driven polariton LED operating at room temperature with monolayer WS2, integrating it into a microcavity structure for the first time.
Findings
External quantum efficiency of ~0.1% achieved
Device operates at room temperature
Potential for electrically driven polariton lasers
Abstract
Half-light half-matter quasiparticles termed exciton-polaritons arise through the strong coupling of excitons and cavity photons. They have been used to demonstrate a wide array of fundamental phenomena and potential applications ranging from Bose-Einstein like condensation to analog Hamiltonian simulators and chip-scale interferometers. Recently the two dimensional transition metal dichalcogenides (TMDs) owing to their large exciton binding energies, oscillator strength and valley degree of freedom have emerged as a very attractive platform to realize exciton-polaritons at elevated temperatures. Achieving electrical injection of polaritons is attractive both as a precursor to realizing electrically driven polariton lasers as well as for high speed light-emitting diodes (LED) for communication systems. Here we demonstrate an electrically driven polariton LED operating at room…
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