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Largely Tunable Magneto-Coloration of Monolayer 2D Materials via Size Tailoring

Baofu Ding, Yikun Pan, Zehao Zhang, Tianshu Lan, Ziyang Huang, Beibei Lü, Bilu Liu, Hui–Ming Cheng

2021ACS Nano17 citationsDOI

Abstract

Magnetically influenced light-matter interaction provides a contactless, noninvasive and power-free way for material characterization and light modulation. Shape anisotropy of active materials mainly determines the sensitivity of magneto-optic response, thereby making magnetic two-dimensional (2D) materials suitable in achieving the giant magneto-birefringence effect as discovered recently. Consequently, relationship between magneto-birefringence response and shape anisotropy of 2D materials is critical but has remained elusive, restricting its widespread applications. Here, we report the highly sensitive and largely tunable magneto-coloration via manipulating the shape-anisotropy of magnetic 2D materials. We reveal a quadratic increasing relationship between the magneto-optic Cotton-Mouton coefficient and the lateral size of 2D materials and achieve a more than one order of magnitude tunable response. This feature enables the engineerable transmissive magneto-coloration of 2D materials by tailoring their shape anisotropy. Our work deepens the understanding of the tunability of magneto-optic response by size effect of active materials, offering various opportunities for their applications in vast areas where color is concerned.

Topics & Concepts

BirefringenceMagnetoAnisotropyMaterials scienceCharacterization (materials science)OptoelectronicsMagnetic anisotropyMonolayerOpticsCondensed matter physicsMagnetic fieldNanotechnologyPower (physics)PhysicsMagnetizationQuantum mechanicsMetamaterials and Metasurfaces ApplicationsAdvanced Materials and MechanicsPhotonic Crystals and Applications
Largely Tunable Magneto-Coloration of Monolayer 2D Materials via Size Tailoring | Litcius