Leung, Joshua and Manning, Jake and Itrych, Piotr and Baldock, Sara and Danos, Lefteris (2025) Enhanced Optical Efficiency of 3D-Printed Single-Dye LSCs Under Photosynthetically Active Radiation (PAR) Illumination : Invited article. Solar RRL: e202500606. pp. 1-10.
Full text not available from this repository.Abstract
We report the development and characterisation of single-dye luminescent solar concentrators (LSCs) fabricated using stereolithography (SLA) 3D printing, doped with Perylene Red and Perylene Orange dyes. A systematic study was carried out by varying the dye concentration in single-dye LSCs and characterising their optical and electrical properties. The performance of the LSCs was studied under photosynthetically active radiation (PAR) illumination, which is relevant for indoor greenhouse applications and aligns with the broader goal of indoor photovoltaics and toward net-zero energy systems. Optical coupling of the LSCs to the solar cells significantly enhanced device performance compared to air-gap configurations. Optically coupled single-dye LSC devices based on Orange and Red achieved power conversion efficiencies of 1.4% and 3.6%, respectively, with corresponding overall optical efficiencies of approximately 15% and 31%. Notably, despite the high reabsorption probability observed in the Red LSC–PV device, photon collection efficiencies reached 50%, demonstrating 3D printing as a rapid and effective research tool for investigating LSC–PV performance.