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Self absorption in luminescent solar concentrators
Z. Krumer
Condensed Matter and Interfaces
Nanophotonics
Surfaces, Interfaces and Devices
Research output
:
Thesis
›
Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Dive into the research topics of 'Self absorption in luminescent solar concentrators'. Together they form a unique fingerprint.
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Keyphrases
Luminescent Solar Concentrator
100%
Self-absorption
100%
Device Efficiency
62%
Luminophore
62%
Concentration Factor
50%
Cadmium Selenide
37%
Cadmium Telluride
37%
Luminescent Particles
25%
Luminescence Quantum Efficiency
25%
Lumogen Red 305
25%
Emission Spectrum
12%
Liquid Phase
12%
High Concentration
12%
CdSe Nanocrystals
12%
Monte Carlo Simulation
12%
Low Efficiency
12%
Photovoltaic Devices
12%
Solar Cell
12%
Semiconductor Nanocrystals
12%
Core-shell Quantum Dots
12%
Loss Mechanism
12%
Absorption Spectra
12%
Absorption Loss
12%
High Luminescence
12%
High Performance
12%
Transparent Materials
12%
Amplification Effect
12%
Concentrator
12%
Power Conversion
12%
Transparent Plate
12%
Power Conversion Efficiency
12%
Theoretical Performance
12%
Efficiency Factor
12%
Optical Efficiency
12%
Incident Light
12%
Ray Tracing
12%
Organic Dyes
12%
Optimal Concentration
12%
Waveguide
12%
Performance Parameters
12%
Total Internal Reflection
12%
Luminescence Efficiency
12%
Spectral Overlap
12%
Performance Value
12%
Loss Amplification
12%
Device Prototype
12%
Factor Efficiency
12%
Engineering
Solar Concentrators
100%
Concentration Factor
66%
Quantum Efficiency
33%
Flat Surface
33%
Absorption Loss
16%
Performance Parameter
16%
Direct Effect
16%
Emitted Light
16%
Power Conversion Efficiency
16%
Efficiency Factor
16%
Light Enters
16%
Power Conversion
16%
Optical Efficiency
16%
Total Internal Reflection
16%
Quantum Dot
16%
Photovoltaics
16%
Liquid Phase
16%
Emission Spectra
16%
Solar Cell
16%
Material Science
Phosphor
100%
Device Efficiency
100%
Luminescence
60%
Photovoltaics
20%
Solar Cell
20%
Quantum Dot
20%
Chemistry
Luminiscence Type
100%
Solar Concentrator
100%
Red
18%
Nanocrystalline Material
18%
Monte Carlo Method
9%
Liquid-Solid Chromatography
9%
Emission Spectra
9%
Absorption Spectra
9%
Quantum Dot
9%
Solar Cell
9%
Physics
Phosphor
100%
Flat Surface
40%
Quantum Dot
20%
Solar Cell
20%
Absorption Spectra
20%
Emission Spectra
20%
Transparence
20%
Liquid Phase
20%
Monte Carlo Method
20%
Chemical Engineering
Monte Carlo Ray Tracing
100%