Dear Colleagues,

Light Management for Optoelectronics” tries to call the attention of all the scientific community working on the improvement of optoelectronic device performance by means of optimized photon management.
Light trapping is a key element to achieve optimum performance in a number of applications, including energy conversion (e.g. solar cells), light detection (e.g. photodiodes), lightning (e.g. light emitting diodes) and spectroscopy. In particular, light trapping is being applied in every photovoltaic technology, so the entire scientific community in the PV field is interested by developments in that area. Similarly, light emitting devices create photons inside a device and the coupling of optical modes to the outside world is based on the physical principles used for light trapping in light harvesting devices.
 
The scope of this Special Issue could include investigations in different areas, such as:

• Interference based anti-reflection coatings (ARC), including mono- and multi-layer configurations, and respective coating deposition methods
• Anti-reflection effects of nano-rough interfaces and effective media
• Light scattering at randomly textured interfaces, especially textured transparent conductive oxides (TCO): Materials, roughness engineering, and production methods
• Light scattering at (quasi-)periodic geometries and corresponding production methods
• Resonant light trapping be means of photonic crystals, including 1D, 2D and 3D structures.
• Light coupling to waveguide modes in optoelectronic devices.
• Plasmonic nanostructures
• Intermediate reflector layers in multi-junction devices
• Light trapping structures and low temperature processes for light management, e.g., in organic or chalcopyrite solar cells
• External optical elements for light trapping including external reflector or refractive elements
• Advanced optical modeling, especially with complex multi-junction configurations
• Characterization and assessment of light management in optoelectronic devices, including spectrally and angle resolved measurements, optical near-field measurements

Dr. Jürgen Hüpkes
Dr. Karsten Bittkau
Guest Editors

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• light scattering
• light trapping
• texturing
• photonic crystals
• nano-optics