The materials uni​t

with silicon ingot growth, slicing, and characterization capabilities. The platform has lab-scale (60 kg) and industrial-scale (1,200 kg) pilot lines and industrial-grade equipment for cutting ingots into bricks and slicing them into wafers.​

The cell unit

for pe​rovskite silicon tandem technology conversion efficiency, cost, and process scaleup. CEA-Liten has been obtaining excellent performance on its industrial-scale silicon process equipment, helping to make heterojunction technology more competitive since 2005. The platform's current target is to achieve yields of at least 25% on silicon and, ultimately, exceed 30% on perovskite silicon tandem cells, a technology that is rapidly gaining traction at the CEA and other research organizations worldwide. The main technological hurdles are perovskite materials' stability, homogeneous deposition on large (greater than 100 cm²) surfaces, and processes compatible with industrial-scale production. The cell unit is home to some of the platform's flagship facilities:

• A 1,300 sq. m ISO 8 clean room with advanced perovskite material production equipment. The Solar Photovoltaic Platform can manufacture and optimize PV cells on a variety of silicon substrates, and can conduct earlier-stage R&D on highly innovative perovskite silicon tandem cells.
• The HET fablab is representative of an industrial heterojunction cell production line, soon to scale up to M10/M12 wafers (up to 210 mm x 210 mm). This high-speed line (2,400 cells per hour) is used to complete the necessary proof-of-concept testing on new cell technologies, ensuring optimal transfer to our manufacturing partners and, ultimately, the rollout of new technologies in France and across Europe.​