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Tunable Optical Properties of Thin Films Controlled by the Interface Twist Angle

Hae Yeon Lee, Mohammed M. Al Ezzi, Nimisha Raghuvanshi, Jing Yang Chung, Kenji Watanabe, Takashi Taniguchi, Slaven Garaj, Shaffique Adam, Silvija Gradečak

2021Nano Letters56 citationsDOI

Abstract

Control of materials properties has been the driving force of modern technologies. So far, materials properties have been modulated by their composition, structure, and size. Here, by using cathodoluminescence in a scanning transmission electron microscope, we show that the optical properties of stacked, >100 nm thick hexagonal boron nitride (hBN) films can be continuously tuned by their relative twist angles. Due to the formation of a moiré superlattice between the two interface layers of the twisted films, a new moiré sub-band gap is formed with continuously decreasing magnitude as a function of the twist angle, resulting in tunable luminescence wavelength and intensity increase of >40×. Our results demonstrate that moiré phenomena extend beyond monolayer-based systems and can be preserved in a technologically relevant, bulklike material at room temperature, dominating optical properties of hBN films for applications in medicine, environmental, or information technologies.

Topics & Concepts

CathodoluminescenceMaterials scienceOptoelectronicsMonolayerLuminescenceMoiré patternSuperlatticeThin filmOpticsNanotechnologyPhysicsGraphene research and applications2D Materials and ApplicationsPlasmonic and Surface Plasmon Research
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