Light-emitting nanomaterials are key components for future applications such as near-eye displays (augmented/virtual reality), autonomous vehicles, laser diodes, quantum communications, wearable smart healthcare devices, biosensors, and other optoelectronic applications. With these possibilities, recent research in the field of light-emitting nanomaterials has mainly focused on achieving high-efficiency, high-stability materials and devices, as well as developing alternative environmentally benign light-emitting materials.
This symposium will cover various emerging low-dimensional light-emitting materials, including metal halide perovskites and their derivatives, inorganic semiconductor nanocrystals, carbon dots, graphene quantum dots, and other low-dimensional nanostructures. The discussion in the proposed symposium will comprehensively encompass precise material synthesis, surface defect passivation, thin-film processing, device interface engineering, and in-depth photophysical/electrical characterization to achieve high-performance optoelectronic devices. Therefore, the proposed symposium will cover a complete range of topics regarding emerging light-emitting low-dimensional materials from fundamental chemistry and physics to related practical applications.
Symposium Organizers
Himchan Cho
Korea Advanced Institute of Science and Technology
Department of Materials Science and Engineering
Republic of Korea
Tae-Hee Han
Hanyang University
Division of Materials Science and Engineering
Republic of Korea
Li Na Quan
Virginia Tech
Department of Chemistry
USA
Barry P. Rand
Princeton University
Electrical and Computer Engineering, Andlinger Center for Energy and the Environment, Princeton Institute of Materials (PRISM)
USA