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Emerging Trends in Chiral Materials for Advanced Photonic Application

Participating journal: Discover Nano

This Collection focuses on the cutting-edge advancements in the development and application of chiral materials for photonic devices. Chiral materials exhibit unique optical properties, such as circular dichroism and optical activity, which have opened new pathways in designing innovative and efficient photonic devices for diverse applications, including sensors, light polarizers, and optical communication systems.

The growing interest in chiral nanostructures, quantum materials, and hybrid systems has paved the way for the development of high-performance optical devices that leverage the spin-selective and light-matter interaction properties of these materials. This collection aims to showcase recent progress in the synthesis, characterization, and practical deployment of chiral materials in photonics.

Keywords: photonic devices; circularly polarized light; chiral perovskites; CP-LEDs; quantum dots; light-matter interaction; plasmonic nanostructures

This Collection supports and amplifies research related to SDG 9.

Participating journal

Submit your manuscript to this collection through the participating journal.

Journal

Discover Nano

Discover Nano is an open access journal publishing research from across all areas of nanoscience and nanotechnology.

Editors

  • Sangeun Cho

    Sangeun Cho

    Sangeun Cho, PhD, Division of System Semiconductor, University of Dongguk, Seoul, South Korea. Sangeun Cho received her PhD in Semiconductor Science from Dongguk University, South Korea, in 2020. She is currently an Assistant Professor in the Division of System Semiconductor at Dongguk University. Her research focuses on the synthesis and characterization of luminescent materials, with a particular interest in their application to advanced optoelectronic devices, including x-ray scintillators and photonic systems. Her work aims to bridge the gap between material innovation and device engineering, contributing to the development of high-efficiency, next-generation semiconductor technologies.

Articles