Within the next 25 years, SSL will become the cornerstone of a revolution in lighting. Incandescent and gas discharge lamps will be replaced by highly efficient organic and inorganic semiconductor devices. This progress relies on advances in material science, device physics, manufacturing, device packaging, and light management. This symposium therefore covers all aspects of solid state lighting, from new materials development and device physics to the design of efficient lighting optics.
Topics include, but are not limited to:
materials and devices for LEDs, including organic, quantum dot, perovskite, and bulk III-V (e.g. GaN) emitters
technology and manufacturing of LEDs
relevant heterojunction and interface studies
stability aspects
light outcoupling
theoretical modeling of optoelectronic and photonic processes
optical micro- and nano-probes of materials and devices
advanced approaches for materials nanostructuring for optoelectronic devices
SSL systems, applications, and performance
spectral tailoring for human centric lighting and circadian lighting applications
the usage of LED in connected light applications
how to meet the future market expectations regarding efficiency, quality and cost of SSL products
Nov 14
2016
Nov 17
2016
Draft paper submission deadline
Registration deadline
2017-11-06 United States Boulder
Solid-State Lighting
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