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Paola DELLI VENERI

Head of ENEA Innovative Device Laboratory - Photovoltaics and Smart Devices Division

ENEA Energy Technologies and Renewable Sources Department

Role in the project : Contact person for the ENEA Psk-Si Tadem infrastructure

email : paola.delliveneri@enea.it

ENEA

Short Bio

Senior researcher in ENEA since 1997. Her main professional interest is in the development of silicon-based, perovskite, and perovskite/silicon tandem solar cells. She leads the research team involved in the development of materials and technological processes for the realization of photovoltaic devices, sensors and innovative energy components. She is the coordinator of the national project “Fotovoltaico ad alta efficienza” funded by Ecological Transition Ministry that involves several universities with 11 different departments. She is author/co-author and reviewer of scientific papers/chapters of books. Associate Editor of Solar Energy – Elsevier and Member of the Scientific Committee of EUPVSEC since 2009.

Publications

H2020 VIPERLAB Knowledge Exchange Platform

DOI LINK

Francesco Roca, David Casaburi, Antonella De Maria, Massimo Izzi, Vera La Ferrara, Manuela Ferrara, Paola Delli Veneri, Eva Unger, Natalia Maticiuc, Stephan Abermann, Raquel Alemañ, Aldo Di Carlo, Theodoros Dimopoulos, Jens Hauch, Mykhailo Sytnyk, Narges Yaghooni Nia

Co-evaporation and hybrid approaches for fabrication of MAPbI3 for perovskite solar cells

Manuela Ferrara, Maria Federica Caso, Fausta Loffredo, Giuseppe Nasti, Corinna Ponti, Gennaro V. Sannino, Carmen Serpico, Fulvia Villani, Paola Delli Veneri, Lucia V. Mercaldo

In-situ and ex-situ spectral response characterization of the radiation Damage and subsequent recovery during proton Irradiation of silicon and Perovskite based Solar Cells

Heinz-Chris Neitzert, Felix Lang, Andrea Denker, Juergen Bundesmann, Lucio Gialanella, Paola Delli Veneri, Lucia Mercaldo, Maryamsadat Heydarian, Alexander Bett, Martin Schubert

Webinars

Customizing Co-Evaporated Perovskites: from Small Areas Solar Cells to Mini-module

[1] - Took place on Jun, 29^th 2022

Metal-halide perovskites made a breakthrough in photovoltaic and light-emitting technologies in the last ten years. Dr. Annalisa Bruno's talk will show why thermal evaporation is a promising perovskite fabrication technique to bring this technology closer to production, by relying on excellent size scalability, promising stability, fine composition control, and surface adaptability. Perovskite fabricated by co-evaporation show remarkable structural robustness and impressive thermal stability. Dr. Bruno will present the results achieved by her team on semi-transparent PSCs and mini modules with a wide range of colors. Lastly she will further discuss how these results represent a significant step toward the commercialization of the perovskite technology

This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement N° 101006715

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