IMPRESSIVE | ground-breakIng tandeM of transPaRent dyE SenSitIsed and peroVskite solar cElls

Summary
IMPRESSIVE’s main objective is to develop transparent photovoltaic (PV) cells converting selectively UV and NIR part of the light while excluding the visible range to reach colourless and fully transparent devices. To reach this ground-breaking objective, the approach is based on hybrid tandem UV-perovskite solar cell and NIR-dye-sensitized solar cell. This innovative technology, based on a under-filing patent and recent breakthrough in perovskite absorbers, is expected to meet the objectives of full transparency and 14% Power Conversion Efficiency with a lifetime over 25 years. The ability to achieve these objectives is ensured by the world leading expertise of the project partners: CNRS and UNITO developed materials for the first transparent DSSC, EPFL is leading the perovskite solar cell revolution, UTV realised the first PSC module and developed a pilot line production for Building Integrated DSSC, HG is the first company selling DSSC modules for BIPV, SMART has a deep experience in Life Cycle Assessment for photovoltaics, and EQY has huge experience in dissemination and exploitation of EU projects’ results for strong market uptake. During the 3 years of the project, the consortium will develop the UV-PSC (WP2) and NIR-DSSC (WP3) before integrating them into a transparent tandem cell (WP4). The stability will be checked (WP5) before the upscaling of all components (WP6), leading to the creation of a 200 x 300 mm transparent PV module. The LCA of the products will be done along with a cost study and a roadmap for years following the project (WP7). To ensure a strong market uptake and disseminate the outstanding expected results, specific efforts will be made on communication and dissemination (WP8). During the whole project, IPR will be carefully managed and the business strategy will be elaborated, in relation with InnoEnergy (WP1) and efficient management of the project will be implemented by the coordinator CNRS (WP9).
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/826013
Start date: 01-01-2019
End date: 30-06-2022
Total budget - Public funding: 2 929 050,00 Euro - 2 929 050,00 Euro
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Original description

IMPRESSIVE’s main objective is to develop transparent photovoltaic (PV) cells converting selectively UV and NIR part of the light while excluding the visible range to reach colourless and fully transparent devices. To reach this ground-breaking objective, the approach is based on hybrid tandem UV-perovskite solar cell and NIR-dye-sensitized solar cell. This innovative technology, based on a under-filing patent and recent breakthrough in perovskite absorbers, is expected to meet the objectives of full transparency and 14% Power Conversion Efficiency with a lifetime over 25 years. The ability to achieve these objectives is ensured by the world leading expertise of the project partners: CNRS and UNITO developed materials for the first transparent DSSC, EPFL is leading the perovskite solar cell revolution, UTV realised the first PSC module and developed a pilot line production for Building Integrated DSSC, HG is the first company selling DSSC modules for BIPV, SMART has a deep experience in Life Cycle Assessment for photovoltaics, and EQY has huge experience in dissemination and exploitation of EU projects’ results for strong market uptake. During the 3 years of the project, the consortium will develop the UV-PSC (WP2) and NIR-DSSC (WP3) before integrating them into a transparent tandem cell (WP4). The stability will be checked (WP5) before the upscaling of all components (WP6), leading to the creation of a 200 x 300 mm transparent PV module. The LCA of the products will be done along with a cost study and a roadmap for years following the project (WP7). To ensure a strong market uptake and disseminate the outstanding expected results, specific efforts will be made on communication and dissemination (WP8). During the whole project, IPR will be carefully managed and the business strategy will be elaborated, in relation with InnoEnergy (WP1) and efficient management of the project will be implemented by the coordinator CNRS (WP9).

Status

CLOSED

Call topic

LC-SC3-RES-2-2018

Update Date

26-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.3. SOCIETAL CHALLENGES - Secure, clean and efficient energy
H2020-EU.3.3.2. Low-cost, low-carbon energy supply
H2020-EU.3.3.2.0. Cross-cutting call topics
H2020-LC-SC3-2018-Joint-Actions-3
LC-SC3-RES-2-2018 Disruptive innovation in clean energy technologies
H2020-EU.3.3.3. Alternative fuels and mobile energy sources
H2020-EU.3.3.3.0. Cross-cutting call topics
H2020-LC-SC3-2018-Joint-Actions-3
LC-SC3-RES-2-2018 Disruptive innovation in clean energy technologies
H2020-EU.3.3.5. New knowledge and technologies
H2020-LC-SC3-2018-Joint-Actions-3
LC-SC3-RES-2-2018 Disruptive innovation in clean energy technologies