Large area uniform industry compatible perovskite solar cell technology

Communication materials (opens in new window)

Initial communication kit (website, factsheet, flyer, etc.)Related tasks:T8.1 Dissemination and communication activities

Laser patterning (opens in new window)

Industrial compatible process for P1, P2, P3 laser patterning with geometrical fill factor >98%.Related tasks:T5.3 Laser patterning process and module fabrication

Stable solar cells (opens in new window)

Stable flexible perovskite solar cells (<1cm2) with a T95 of 1000h for ISOS-L-1 continuous illumination at 1 sun.Related tasksT2.3 High-throughput characterization and accelerated device assessment

Eco-design strategies: intermediate (opens in new window)

Intermediate report on design strategies towards a sustainable Perovskite PV module and its R2R production line based on intermediate TEA and LCA results.Related tasks:T7.1 Life cycle analysis of perovskite modulesT7.2 Techno economic analysis of perovskite modules

Gen01 cells (opens in new window)

High efficiency flexible perovskite solar cells with a target PCE >21% at small scale (<1 cm2).Related tasksT2.1 Perovskite absorber optimization for flexible solar cells

Stable Gen01 module (opens in new window)

Indoor/outdoor stability assessment of Gen01 flexible modules with a target PCE of >20% on >100 cm2 aperture area, according to the IEC and ISOS standards.Related tasks:T6.3 Outdoor stability testing of encapsulated cells and modules

Specifications for transport layers for upscaled processing (opens in new window)

Specifications for transport layers for upscaled processing of perovskite cells and modules.Related tasks:T3.2 NiO sputtering as HTL for perovskite stackT3.3 ETL development and soft-sputtered SnO2 for ETL and buffer layersT3.4 Soft sputtering of In-free top TCO

Diss&Comm plan-2 (opens in new window)

Plan for dissemination and communication activities-2Related tasks:T8.1 Dissemination and communication activities

Verification of large area operational uniformity (opens in new window)

Uniformity analysis of JV characteristics of a statistical distribution of 64 sub-cells (<1 cm2) over a large area (10x10 cm2) representative of a scaled-up device, target: a ± 5% standard deviation over the peak characteristic Voc, Jsc, FF, PCE, with a peak efficiency target of >21%.Related tasksT2.2 Environmentally benign solvent systems for upscaling

Diss&Comm plan-1 (opens in new window)

Plan for dissemination and communication activities-1Related tasks:T8.1 Dissemination and communication activities

Guidelines for a sustainable life cycle (opens in new window)

Guidelines for the sustainable production and end-of-life of large area flexible perovskite modules.Related tasks:T1.2 Guidelines for sustainable production of flexible perovskite modules

Integration into upscalable stack (opens in new window)

Deposition of FTO, NiO, Buffer layer and TCO compatible with industrial process have been identified and the results on small area cells are aligned with the state of the art without compromising the fill-factor and the series resistance.Related tasks:T3.1 FTO process as current collector for perovskite stackT3.2 NiO sputtering as HTL for perovskite stackT3.3 ETL development and soft-sputtered SnO2 for ETL and buffer layersT3.4 Soft sputtering of In-free top TCO

Large are perovskite films (opens in new window)

Demonstration of perovskite films and transport layers with large area uniformity, verified by characterization technique.Related tasks:T5.1 Upscaled processing of perovskite layersT5.2 Upscaled processing of charge-selective transport layers and contacts