Luminescent solar concentrators (LSCs) consist of dye-doped, highly transparent, plastic plates aimed at improving the building integration and reducing the cost of photovoltaic (PV) technology. In the thin-film configuration, the surface of these devices is particularly exposed to mechanical damage and to a consequent loss of performance in terms of power conversion. To address this issue, the first demonstration of a healable thin-film LSC based on a photoreversible polymer network as the host matrix is presented in this work. The photoresponsive matrix is obtained by simple UV curing of a coumarin functional polyurethane through reversible [2+2] cycloaddition. The final cross-linked coating is optically clear and exhibits excellent scratch remendability after suitable UVC/UVA exposure. The LSC devices obtained by doping the responsive matrix with perylene- or coumarin-based organic dyes possess a remarkable PV performance, comparable with control devices based on poly(methyl methacrylate). The loss of performance induced by surface mechanical scratches can be fully recovered by UV irradiation, as a result of the photoreversibility of the coumarin functional polymer network. The healing strategy presented here, purely light-triggered, expands the tools for the design of durable and responsive thin-film LSCs.

Stimuli-Responsive Luminescent Solar Concentrators Based on Photoreversible Polymeric Systems

Giovanni Fortunato;Elisavet Tatsi;Francesca Corsini;Stefano Turri;Gianmarco Griffini
2020-01-01

Abstract

Luminescent solar concentrators (LSCs) consist of dye-doped, highly transparent, plastic plates aimed at improving the building integration and reducing the cost of photovoltaic (PV) technology. In the thin-film configuration, the surface of these devices is particularly exposed to mechanical damage and to a consequent loss of performance in terms of power conversion. To address this issue, the first demonstration of a healable thin-film LSC based on a photoreversible polymer network as the host matrix is presented in this work. The photoresponsive matrix is obtained by simple UV curing of a coumarin functional polyurethane through reversible [2+2] cycloaddition. The final cross-linked coating is optically clear and exhibits excellent scratch remendability after suitable UVC/UVA exposure. The LSC devices obtained by doping the responsive matrix with perylene- or coumarin-based organic dyes possess a remarkable PV performance, comparable with control devices based on poly(methyl methacrylate). The loss of performance induced by surface mechanical scratches can be fully recovered by UV irradiation, as a result of the photoreversibility of the coumarin functional polymer network. The healing strategy presented here, purely light-triggered, expands the tools for the design of durable and responsive thin-film LSCs.
2020
[2+2] cycloaddition
fluorescent coatings
stimuli-responsive polymers
photohealable polymers
luminescent solar concentrators
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1158220
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