Browse > Article
http://dx.doi.org/10.7236/IJASC.2022.11.2.59

Study of Implementation of Broadband Antireflection Coating for Luminescent Solar Concentrators to Optimized the Efficiency  

Duy, Song Ngo (Department of Technology, Dong Nai Technology University)
Publication Information
International journal of advanced smart convergence / v.11, no.2, 2022 , pp. 59-63 More about this Journal
Abstract
In this study, we study of luminescent solar concentrators comprise thick glass with broadband antireflection coating deposited on the top surfaces and inorganic phosphor layers contacted on the bottom surfaces. Solar cells are contacted to the lateral surfaces of the glass. Experimental results show the broadband antireflection coating increased the short-circuit current of the solar cell.
Keywords
Solar Concentrators; Luminescent solar concentrator; broadband; antireflection; coating; short-circuit current;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Bronstein, Noah D., Lanfang Li, Lu Xu, Yuan Yao, Vivian E. Ferry, A. Paul Alivisatos, and Ralph G. Nuzzo. "Luminescent solar concentration with semiconductor nanorods and transfer-printed micro-silicon solar cells." Acs Nano 8, no. 1 (2014): 44-53.   DOI
2 Fisher, Martyn. "Optimization and novel applications of luminescent solar concentrators." PhD diss., Imperial College London, 2013.
3 Meng, Linghai, Lifu Shi, Yong Ge, Jialun Tang, Yu Chen, and Haizheng Zhong. "Photon management of combining nanostructural antireflection and perovskite down-shifting composite films for improving the efficiency of silicon solar cells." Solar Energy Materials and Solar Cells 220 (2021): 110856.   DOI
4 Phelan, Megan, David R. Needell, Haley Bauser, Hanxiao Su, Michael Deceglie, San Theingi, Brent Koscher et al. "Outdoor performance of a tandem InGaP/Si photovoltaic luminescent solar concentrator." Solar Energy Materials and Solar Cells 223 (2021): 110945.   DOI
5 Griffini, Gianmarco. "Host matrix materials for luminescent solar concentrators: recent achievements and forthcoming challenges." Frontiers in Materials 6 (2019): 29.   DOI
6 Xia, Pengfei, Shuhong Xu, Fan Liu, Qingyang Lu, Kuo Yang, Zhuyuan Wang, Yiping Cui, Dayan Ban, and Chunlei Wang. "In Situ-Prepared Attachable Transparent Luminescent Solar Concentrators for Photovoltaic with Polymer Antireflection/Barrier Layer." Solar RRL 5, no. 10 (2021): 2100491.   DOI
7 Mendewala, Benaz, Katerina Nikolaidou, Christine Hoffman, Som Sarang, Jennifer Lu, Boaz Ilan, and Sayantani Ghosh. "The potential of scalability in high efficiency hybrid perovskite thin film luminescent solar concentrators." Solar Energy 183 (2019): 392-397.   DOI
8 Debije, Michael G., and Paul PC Verbunt. "Thirty years of luminescent solar concentrator research: solar energy for the built environment." Advanced Energy Materials 2, no. 1 (2012): 12-35.   DOI
9 Yang, Chenchen, Dianyi Liu, Alexander Renny, Padmanaban S. Kuttipillai, and Richard R. Lunt. "Integration of near-infrared harvesting transparent luminescent solar concentrators onto arbitrary surfaces." Journal of Luminescence 210 (2019): 239-246.   DOI
10 Cardoso, M. A., S. F. H. Correia, A. R. Frias, H. M. R. Goncalves, R. F. P. Pereira, S. C. Nunes, M. Armand, P. S. Andre, V. de Zea Bermudez, and R. A. S. Ferreira. "Solar spectral conversion based on plastic films of lanthanide-doped ionosilicas for photovoltaics: Down-shifting layers and luminescent solar concentrators." Journal of Rare Earths 38, no. 5 (2020): 531-538.   DOI