1. Carbon nanodot with highly localized excitonic emission for efficient luminescent solar concentrator
- Author
-
Zang, Jinhao, Jiao, Fuhang, Wei, Jianyong, Lou, Qing, Zheng, Guangsong, Shen, Chenglong, Deng, Yuan, Soheyli, Ehsan, Sahraei, Reza, Yang, Xun, Zang, Huaping, Zhou, Weimin, Fan, Wei, Wang, Shaoyi, Dong, Lin, and Shan, Chong-Xin
- Abstract
Luminescent solar concentrators (LSCs) are attractive for the easy operation and high compatibility with building integrated photovoltaics due to their low cost, large-scale and applicability. However, underutilized sunlight in visible wavelengths often impedes the advance of LSCs. Here, we demonstrate an orange-emitting carbon nanodots-based LSC (O-CDs) with excitation concentrated in the visible wavelengths. The orange-emitting carbon nanodots (O-CDs) with highly localized excitonic emission are prepared via atomic condensation of doped pyrrolic nitrogen, delivering a high photoluminescence quantum yield of 80 % and a suitable Stokes shift with absorption spectrum situated in the visible region. The O-CDs are embedded in polyvinylpyrrolidone to obtain a highly transparent, stable and environmentally friendly O-CDs-based LSC. Thanks to efficient utilization of solar radiation in visible areas and well match between the emission of O-CDs and the response bands of photovoltaic cells, the O-CDs-based LSC reveals an optical conversion efficiency of 5.17 %, superior to that of most carbon nanodots-based LSCs. These results provide an effective strategy to develop carbon-based luminescent concentrated materials for architectural integrated photovoltaic technology.
- Published
- 2023
- Full Text
- View/download PDF