Summary
Perovskite solar cells (PSCs) have emerged as highly promising next-generation photovoltaic technologies, distinguished by their exceptional combination of superior photovoltaic performance and cost-effective manufacturing. Despite their remarkable potential, the commercialization of large-area PSCs remains a formidable challenge, presenting a critical obstacle in the field of perovskite photovoltaics. The core objective of this project is to spearhead the development of efficient and durable perovskite solar modules (PSMs) that are pertinent to industrially relevant scale. We aim to demonstrate power conversion efficiencies of ≥23% and ≥20% on 100 cm2 and 800 cm2 modules, respectively. To achieve this ambitious goal, we will adopt an interdisciplinary approach, to devise a novel strategy for absorber and interface engineering on a large scale. This breakthrough method will enable uniform crystal growth on a large scale, resulting in perovskite films with high homogeneity and creating interfaces with nanoscale uniformity and robust interfacial adhesion in large-scale modules. The stability of these modules will undergo rigorous testing in accordance with IEC and ISOS protocols. Simultaneously, alongside the device/module fabrication and stability testing phases, we will embark on fundamental investigations utilizing advanced techniques to gain a comprehensive understanding of the material's operational mechanisms within the modules. This project capitalizes on the host lab's extensive proficiency in perovskite module fabrication, which is complemented by the applicant’s strong background in material design and synthesis. This project will not only significantly enrich the fellow's skill set but also instill invaluable leadership qualities and management skills poised to shape their future career.
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| Web resources: | https://cordis.europa.eu/project/id/101153019 |
| Start date: | 01-10-2024 |
| End date: | 30-09-2026 |
| Total budget - Public funding: | - 191 760,00 Euro |
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Original description
Perovskite solar cells (PSCs) have emerged as highly promising next-generation photovoltaic technologies, distinguished by their exceptional combination of superior photovoltaic performance and cost-effective manufacturing. Despite their remarkable potential, the commercialization of large-area PSCs remains a formidable challenge, presenting a critical obstacle in the field of perovskite photovoltaics. The core objective of this project is to spearhead the development of efficient and durable perovskite solar modules (PSMs) that are pertinent to industrially relevant scale. We aim to demonstrate power conversion efficiencies of ≥23% and ≥20% on 100 cm2 and 800 cm2 modules, respectively. To achieve this ambitious goal, we will adopt an interdisciplinary approach, to devise a novel strategy for absorber and interface engineering on a large scale. This breakthrough method will enable uniform crystal growth on a large scale, resulting in perovskite films with high homogeneity and creating interfaces with nanoscale uniformity and robust interfacial adhesion in large-scale modules. The stability of these modules will undergo rigorous testing in accordance with IEC and ISOS protocols. Simultaneously, alongside the device/module fabrication and stability testing phases, we will embark on fundamental investigations utilizing advanced techniques to gain a comprehensive understanding of the material's operational mechanisms within the modules. This project capitalizes on the host lab's extensive proficiency in perovskite module fabrication, which is complemented by the applicant’s strong background in material design and synthesis. This project will not only significantly enrich the fellow's skill set but also instill invaluable leadership qualities and management skills poised to shape their future career.Status
SIGNEDCall topic
HORIZON-MSCA-2023-PF-01-01Update Date
25-11-2024
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