Support CleanTechnica’s work through a Substack subscription or on Stripe.
The Fraunhofer Institute for Solar Energy Systems (ISE) is no stranger to solar power records, and it’s just set another one.
Via its own III-V germanium solar PV module, the institute reached 34.4 percent solar module efficiency. The solar record march goes on.
“The solar cells were developed by AZUR SPACE, while the anti-reflective coatings on the front glass were provided by temicon. Visitors to Intersolar / The Smarter E 2026 can see the world’s most efficient PV module at Fraunhofer ISE’s booth A1.440,” Fraunhofer ISE shares.
The Fraunhofer ISE team actually just set the solar module efficiency record earlier this year before building on the tech to set a new record in recent days. The scientific details are beyond my understanding, though, so there’s no way I’m explaining what happened better than Fraunhofer ISE is explaining it. Here’s more info:
“In early 2026, a Fraunhofer ISE research team working on the ‘Vorfahrt‘ project built an 833-square-centimeter module with an efficiency of 34.2 percent—a new world record. The module consists of triple III-V germanium cells, which the research project coordinator, AZUR SPACE Solar Power, further developed for the solar module. To achieve this, the manufacturer adapted its triple solar cell technology—originally optimized for space applications—to the terrestrial solar spectrum, enabling it to be produced in comparable quantities and on the same wafer formats.
“A few months later, the project team has now surpassed its own achievements: By using shingled matrix technology to interconnect the solar cells, they were able to increase the module’s efficiency to 34.4 percent. For several years, Fraunhofer ISE has been collaborating with a German mechanical engineering partner to develop the interconnection of solar cells using shingle-matrix technology, which is also used in commercial modules manufactured in Germany. The shingle-matrix approach represents a fundamental departure from traditional photovoltaic module construction, in which solar cells are cut into narrow strips and then arranged in a shingle-like pattern—overlapping and offset from one another—and connected using electrically conductive adhesives (ECA).
“This architecture enables direct cell-to-cell contact, thereby eliminating the need for traditional solder-coated copper ribbons. The key advantage: By eliminating cell interconnects, no active cell area is shaded. The resulting exceptionally high area utilization was a key factor in achieving the record efficiency.”
Sounds cool, right?
Sign up for CleanTechnica’s Weekly Substack for Zach and Scott’s in-depth analyses and high level summaries, sign up for our daily newsletter, and follow us on Google News!
Have a tip for CleanTechnica? Want to advertise? Want to suggest a guest for our CleanTech Talk podcast? Contact us here.
Sign up for our daily newsletter for 15 new cleantech stories a day. Or sign up for our weekly one on top stories of the week if daily is too frequent.
CleanTechnica uses affiliate links. See our policy here.
CleanTechnica’s Comment Policy