Affiliation:
1. Univ. Grenoble Alpes CNRS, CEA, SyMMES, 17 rue des martyrs Grenoble 38000 France
2. Área de Química Física Universidad Pablo de Olavide Seville E‐41013 Spain
3. Solaronix SA Rue de l'Ouriette 129 Aubonne 1170 Switzerland
Abstract
AbstractSemi‐transparent solar cells are emerging as promising devices for building integrated photovoltaics. However, regardless of the technology considered, the optical transmission of semi‐transparent solar cells is fixed during the fabrication process, and hence, cannot adjust to variations in daylight or weather conditions. This becomes an issue when applications such as photovoltaic windows are envisioned. Previously, it has been reported that the use of photochromic naphthopyran dyes in dye‐sensitized solar cells (DSSC) allows for the fabrication of semi‐transparent devices capable of modulating their light transmission and energy production depending on light intensity. Herein, a series of naphthopyran dyes with an identical pi‐conjugated backbone and varying alkyl substituents is reported. Using this molecular engineering strategy, the control of the discoloration kinetics of the photochromic dyes and the reduction of undesirable recombination processes when utilised in solar cells is demonstrated. The clear photochromic‐photovoltaic structure‐property relationships for these new photosensitizers is established and they are shown to demonstrate improved photovoltaic performances and photochromic responses in DSSC with notably faster discoloration than previously reported. For the first time with photochromic molecules, the co‐sensitization of the electrodes is explored and the highest power conversion efficiency for a photochromic DSSC is reported, reaching up to 4.34% under standard conditions.
Funder
European Research Council
Ministerio de Ciencia e Innovación
Agencia Estatal de Investigación
Federación Española de Enfermedades Raras
Subject
General Materials Science,Renewable Energy, Sustainability and the Environment
Cited by
19 articles.
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