Front Materials

  • Taiwanese-based developer of perovskite solar cells for indoor applications, using a sheet-to-sheet process for planar architectures
  • Claims an 18.4% efficient lab-scale cell and a 12% efficient small area module; is currently pursuing third-party verification and performing stability te...

This research is archived and therefore no longer available. For further assistance please contact your Customer Success Manager or email Thank you!

Related Research

Oxford Photovoltaics

Company Profile | March 30, 2022

Oxford Photovoltaics (Oxford PV) develops a tandem solar cell consisting of a top perovskite layer and a bottom silicon layer; this structure is connected in a two‑terminal configuration and held the record efficiency for a perovskite‑silicon tandem at 29.52% efficiency In parallel, the company... Not part of subscription

EPFL's 29.2% efficient perovskite-silicon tandem device sits closer to the current record of 29.8% held by HZB

News Commentary | May 05, 2022

The École Polytechnique Fédérale de Lausanne (EPFL) hit a conversion efficiency of 29.2% by depositing a perovskite material on top of a "fully textured" silicon surface, which was certified by the Fraunhofer Institute. In addition to the textured surface implemented to reduce light reflection, the ... Not part of subscription

EPFL developed a 24 cm² perovskite solar cell with 22.72% certified efficiency

News Commentary | May 12, 2022

The École Polytechnique Fédérale de Lausanne (EPFL) developed a solvothermal method to deposit uniform "single‑crystalline" TiO2 particles on top of a perovskite absorber layer. According to the researchers, the TiO2 particles showed lower "lattice" mismatches, resulting in a lower number of defects... Not part of subscription