Descrizione del progetto
Nuove celle solari ad assorbimento e trasmissione regolabili
Fra le tecnologie fotovoltaiche emergenti (FV), le celle solari a colorante organico (DSSC) offrono una promettente soluzione economica, stabilità e la caratteristica innovativa della semi-trasparenza, ma la tecnologia ha bisogno di ulteriore sviluppo. Le applicazioni DSSC sono infinite, a partire da edifici, veicoli ed elettronica mobile. Il progetto PISCO si baserà su una proposta del 2017 avanzata dal capogruppo per combinare fotocromia e proprietà fotovoltaiche, producendo celle solari che possono autoregolarsi sia come assorbimento (quali condizioni meteorologiche), che come trasmissione ottica. PISCO progetterà nuovi coloranti fotocromatici altamente stabili, li testerà su dispositivi e mostrerà il loro potenziale nelle applicazioni di mercato. Le sue tecnologie innovative contribuiranno a una quota molto più elevata di fonti di energia solare nella produzione di energia in Europa.
Obiettivo
Solar Solar energy is an unlimited renewable source of energy but its contribution to European energy production is still minor. It is therefore urgent to develop innovative photovoltaic (PV) technologies and products, and to implement them massively. Among emerging photovoltaics, Dye-Sensitized Solar Cells (DSSCs) are competitive in terms of efficiency, cost, and more importantly stability. They can be made semi-transparent which is an appealing feature for building or automobile integrated photovoltaics. But to be efficient, they have to harvest a maximum of photons from the sun, thus the best-performing DSSCs cannot show a good transparency which impedes their use as windows.
In 2017, I proposed a new concept to combine photochromism and photovoltaic, leading for the first time to efficient semi-transparent solar cells showing variable and self-adjustable optical transmission. These cells can simultaneously adapt their absorption depending on the weather conditions and produce electricity.
Starting from this result, PISCO will widely explore this exciting concept and provide a breakthrough in photovoltaics by developing a novel class of multifunctional solar cells that could be massively integrated in buildings, automotive, or mobile electronics.
The main objectives of PISCO are:
1) Design and synthesis of novel photochromic dyes with optimized optoelectronic properties and high stability.
2) Integration of these molecules in devices using methodologies to enable fundamental studies, to fully understand what factors are governing the photochromic behaviour, the generation of electrical power, and the interplay between them.
3) Inspired by the most relevant and recent concepts in the field, to develop robust and efficient photochromic solar cells and modules.
PISCO will provide the step change expected in photovoltaics, it will change our conceit of optical properties of solar cells by providing a ground-breaking technology with widen potential applications.
Campo scientifico
Programma(i)
Argomento(i)
Meccanismo di finanziamento
ERC-ADG - Advanced GrantIstituzione ospitante
75015 PARIS 15
Francia