Proceedings of MATSUS Spring 2024 Conference (MATSUS24)
DOI: https://doi.org/10.29363/nanoge.matsus.2024.461
Publication date: 18th December 2023
The scalable slot-die coating methods adopted within TNO enable fabrication of efficient single junction perovskite solar devices with intrinsic stability using various material and layer combinations. Furthermore, several different encapsulation strategies are investigated to define a low-cost route to guarantee long term stable modules. Demonstration of a stable opaque and semi-transparent bifacial flexible perovskite module is a step forward on various applications, such as building- and vehicle-integrated PV (BIPV & VIPV) and noise barriers on highways. In this talk, we will give an overview of our story towards realizing a stable, efficient, and bifacial perovskite processed via roll-to-roll slot-die coating technique.
As an outlook, we show recent work on realizing multi-junction perovskite solar cells and modules. Furthermore, we reveal a method how flexible modules may be integrated in bespoke photovoltaic modules as enabling process for integrated PV and an important step towards commercializing this emerging PV technology.
The graphical abstract shows an example of roll-to-roll coated perovskite.
•HyET Solar
•Project "Perovskite based solar cells" as part of the innovatiecoalitie 'Solar maakindustrie voor Brabant', Province of North Brabant, The Netherlands
•TNO Perovskite program is supported by Research and Cooperation Fund from Ministry of Economic Affairs and Climate Policy
•SuPerTandem received funding from the European Union’s Horizon Europe and Horizon 2020 research and innovation programmes under grant agreement N° 101075605.
•TNO Perovskite program is supported by Research and Cooperation Fund from Ministry of Economic Affairs and Climate Policy
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