High-efficiency laminated luminescent solar concentrators based on carbon dots and nanorings

Abstract

Creation of novel fluorescent nanomaterials with high photoluminescence quantum yield (PLQY) will lead to high-efficiency luminescent solar concentrators (LSCs). Herein, two kinds of carbon dots (CDs), e.g., blue and green emissive CDs and one novel carbon nanorings (NRs) with yellow emission are synthesized by the solvothermal method. Diaminobenzenesulfonic acid is used as one main precursor to create blue, green emission carbon dots (B/GCDs) and yellow emission carbon nanorings (YCNRs). Importantly, the PLQYs of B/GCDs and YCNRs are 59.8±3.2 %, 12.2±0.7 % and 63.2±1.5 %, respectively. Moreover, B/GCDs and YCNRs are used as fluorescent nanomaterials to construct laminated LSCs with single-layer and double-layer through one-step photopolymerization technique. For single-layer laminated LSCs, YCNRs-based LSCs have the maximum external optical efficiency (ηopt), up to 3.05 %. Furthermore, for double-layer laminated LSCs, the LSCs based on BCDs and YCNRs achieve the highest ηopt of 4.09 %. Compared to single-layer laminated LSCs, the double-layer laminated LSCs show an increase of 34 % in ηopt. Their internal quantum efficiency (ηint) of 29.88 % and external quantum efficiency (ηext) of 25.18 % are obtained, respectively. The presented values are just for single-wavelength excitation. Thus, the synthesis of novel YCNRs with high PLQYs contributes to the optical performances at a large level. Remarkably, the optimal double-layer laminated LSCs show good transparency.