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Photonic Assemblies of Randomly Oriented Nanocrystals for Engineered Nonlinear and Electro-Optic Effects

Viola V. Vogler‐Neuling, Artemios Karvounis, Andrea Morandi, Helena Weigand, Eric Dénervaud, Rachel Grange

2022ACS Photonics24 citationsDOIOpen Access PDF

Abstract

). The constraints associated with top-down nanofabrication methods have led to bottom up approaches to harness the strong nonlinearities and electro-optical properties. Here, we present an overview of photonic assemblies made of randomly oriented noncentrosymmetric nanocrystals via bottom-up fabrication methods. In this configuration, nanocrystals can form objects with tunable dimensions, increased complexity, and a great span of symmetry level, ranging from thin layers to spheres. At the same time, according to their shape, photonic assemblies may support optical modes, that is, Mie or guided, which can tailor linear optical properties and enhance nonlinear and electro-optic responses. As a result, assemblies of noncentrosymmetric nanocrystals can form a disruptive platform to realize photonic integrated devices free of etching process and over large surface areas. Last, we foresee potential applications of noncentrosymmetric nanocrystals in various fields of nano-optics and sensing.

Topics & Concepts

Lithium niobatePhotonicsMaterials scienceNanocrystalNonlinear opticsOptoelectronicsFabricationBarium titanatePhotonic crystalNanolithographyNanotechnologyLaserOpticsDielectricPhysicsMedicinePathologyAlternative medicineNonlinear Optical Materials StudiesPhotonic Crystals and ApplicationsPhotonic and Optical Devices
Photonic Assemblies of Randomly Oriented Nanocrystals for Engineered Nonlinear and Electro-Optic Effects | Litcius