利用碘和钴基氧化还原电解质的吲哚染料制备和表征双面染料敏化太阳能电池

S. Shaban, Safalmani Pradhan, S. Pandey
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摘要

双面太阳能电池(BFSCs)由于其紧凑、节省空间的特性以及比单面太阳能电池更高的光转换效率(PCE)而越来越受欢迎。利用D‐205作为染料敏化剂,结合I‐/I3‐和Co2+/Co3+氧化还原电解质,制备并表征了双面染料敏化太阳能电池(BF‐DSSCs)。使用碘基电解质的BF - DSSCs的累积PCE和双面性因子(BFF)分别为13.05%和85%。背光照射下的PCE受阻是由于电解质自身对光子的吸收。与此相反,使用钴络合物氧化还原电解质制备的BF - DSSCs在前后光照射下,BFF接近100%,PCE分别为4.77%和4.75%。虽然使用钴电解质(氧化还原电位更深)制备的BF - DSSCs的开路电压(Voc)略高于使用碘电解质制备的BF - DSSCs,但其累积PCE(9.52%)远低于基于碘的器件(13.05%)。PCE的降低是由于基于钴电解质的BF - DSSCs中相对快速的电荷重组。这篇文章受版权保护。版权所有。
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Fabrication and Characterization of Bifacial Dye‐Sensitized Solar Cells Utilizing Indoline Dye with Iodine and Cobalt‐based Redox Electrolytes
Bifacial solar cells (BFSCs) are gaining popularity due to their compactness, space‐saving property, and higher photoconversion efficiency (PCE) than mono‐facial solar cells. Bifacial dye‐sensitized solar cells (BF‐DSSCs) are fabricated and characterized utilizing D‐205 as a dye‐sensitizer in combination with I‐/I3 ‐ and Co2+/Co3+ redox electrolytes. BF‐DSSCs using iodine‐based electrolytes demonstrate a cumulative PCE and bifaciality factor (BFF) of 13.05% and 85%, respectively. The hampered PCE under back‐side light illumination is attributed to the absorption of photons by the electrolyte itself. Contrary to this, BF‐DSSCs fabricated using cobalt‐complex‐based redox electrolyte exhibits an exceptionally high BFF of nearly 100% with a PCE of 4.77% and 4.75% under the front and rear light illumination, respectively. Although the open circuit voltage (Voc) of the BF‐DSSCs fabricated using cobalt electrolyte (with deeper redox potential) is slightly higher than that of BF‐DSSCs fabricated using iodine electrolyte, their cumulative PCE (9.52%) is much lower than that of iodine‐based device counterparts (13.05%). This decrease in PCE is attributed to the relatively fast charge recombination in the cobalt electrolyte‐based BF‐DSSCs.This article is protected by copyright. All rights reserved.
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