“This is a proud achievement for Solar Frontier and a significant advancement for our CIS technology. This is the first time that CIS has crossed the 22% efficiency boundary – a level not yet surpassed by any other thin-film or multi-crystalline silicon technology,” said Satoru Kuriyagawa, Chief Technology Officer of Solar Frontier. “We achieved our latest record through improvements to the CIS absorber layer and junction formation process. This latest advancement brings us a step closer toward realizing Solar Frontier’s long-term goal of exceeding 30% efficiency using CIS.”
Kuriyagawa continued: “We would like to express our gratitude to the CIS research consortium organized by NEDO, which includes the National Institute of Advanced Industrial Science and Technology (AIST), for supporting this joint NEDO project. Solar Frontier will continue to stand at the forefront of research and development, transferring new discoveries into mass production and delivering higher energy yields and lower energy costs to all customers.”
“Solar Frontier is proud to be a technology leader in the solar energy industry,” said Atsuhiko Hirano, CEO of Solar Frontier. “Increasing conversion efficiency is a key component in driving down the total lifetime cost of solar energy for homeowners and businesses.”
In addition to conversion efficiency, there are several factors that determine how much energy a solar module will ultimately generate in real-world conditions and, subsequently, its lifetime cost. Solar Frontier’s CIS modules generate more energy (kilowatt-hours per kilowatt-peak) compared to crystalline silicon in real-world conditions.
Building on its latest research achievement, Solar Frontier will continue to advance its CIS technology in pursuit of its vision: a future where solar energy enables a cleaner, more comfortable lifestyle for all.