Luminescent solar concentrators 2: Experimental and theoretical analysis of their possible efficiencies
- 1 November 1981
- journal article
- Published by Optica Publishing Group in Applied Optics
- Vol. 20 (21) , 3733-3754
- https://doi.org/10.1364/ao.20.003733
Abstract
Experimental techniques are developed to determine the applicability of a particular luminescing center for use in a luminescent solar concentrator (LSC). The relevant steady-state characteristics of eighteen common organic laser dyes are given. The relative spectral homogeneity of such dyes are shown to depend upon the surrounding material using narrowband laser excitation. We developed three independent techniques for measuring self-absorption rates; these are time-resolved emission, steady-state polarization anisotropy, and spectral convolution. Preliminary dye degradation and prototype efficiency measurements are included. Finally, we give simple relationships relating the efficiency and gain of an LSC to key spectroscopic parameters of its constituents.Keywords
This publication has 8 references indexed in Scilit:
- Picosecond dynamics of electronic energy transfer in condensed phasesThe Journal of Chemical Physics, 1981
- Influence of the solvent matrix on the overlapping of the absorption and emission bands of solute fluorescent dyesApplied Physics A, 1980
- Luminescent solar concentrators 1: Theory of operation and techniques for performance evaluationApplied Optics, 1979
- Rotational-diffusion anomalies in dye solutions from transient-dichroism experimentsChemical Physics, 1979
- Photobleaching of organic laser dyesOptics Communications, 1972
- Measurement of photoluminescence quantum yields. ReviewThe Journal of Physical Chemistry, 1971
- Time‐dependent fluorescence depolarization and Brownian rotational diffusion coefficients of macromoleculesBiopolymers, 1969
- Molecular Collisions and the Depolarization of Fluorescence in GasesThe Journal of Chemical Physics, 1966