Absorption and emission modulation in MoS2-GaN (0001) heterostructure by interface phonon-exciton coupling
Yuba Poudel, Jagoda Slawinska, Priya Gopal, Sairaman Seetharaman,, Zachariah Hennighausen, Swastik Kar, Francis Dsouza, Marco Buongiorno, Nardelli, Arup Neogi

TL;DR
This study investigates how interface phonon-exciton coupling in MoS2-GaN heterostructures affects their optical absorption and emission properties, revealing strong modulation effects relevant for optoelectronic applications.
Contribution
It provides new insights into the interface phonon-exciton interactions in MoS2-GaN heterostructures using experimental and theoretical methods, highlighting their impact on optical properties.
Findings
Strong modulation of MoS2 excitonic absorption states observed.
Enhanced and blue-shifted emission due to carrier-phonon interactions.
Type-I band alignment confirmed by DFT calculations.
Abstract
Semiconductor heterostructures based on layered two-dimensional transition metal dichalcogenides (TMD) interfaced to gallium nitride (GaN) are excellent material systems to realize broadband light emitters and absorbers. The surface properties of the polar semiconductor, such as GaN are dominated by interface phonons, thus the optical properties of the vertical heterostructure depend strongly on the interface exciton-phonon coupling. The origin and activation of different Raman modes in the heterostructure due to coupling between interfacial phonons and optically generated carriers in a monolayer MoS2-GaN (0001) heterostructure was observed. This coupling strongly influences the non-equilibrium absorption properties of MoS2 and the emission properties of both semiconductors. Density functional theory (DFT) calculations were performed to study the band alignment of the interface, which…
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Taxonomy
Topics2D Materials and Applications · GaN-based semiconductor devices and materials · ZnO doping and properties
