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Perovskite-Silicon Solar Cells Meet Matrix Shingled Interconnection Collaboration between Oxford PV & Fraunhofer ISE
cleantechnica.com Jun 21, 2026

Perovskite-Silicon Solar Cells Meet Matrix Shingled Interconnection Collaboration between Oxford PV & Fraunhofer ISE

Curated by · TechCapsules ·

AI-summarised brief · reviewed before publication

Oxford PV and Fraunhofer ISE have collaborated to combine perovskite-silicon solar cells with Matrix Shingle interconnection technology, achieving a 25.6 percent efficiency rate. The new module design will be showcased at The Smarter E / Intersolar trade fair. Oxford PV's perovskite-silicon tandem technology and Fraunhofer ISE's Matrix Shingle technology work well together, increasing productivity and reducing resistive losses. The tandem modules are glass-glass modules with edge sealing, protecting the moisture-sensitive solar cells. The collaboration has resulted in two module variants, a 491-watt rooftop module and a 546-watt bifacial module.

💡 Why It Matters

  • · The integration of perovskite-silicon solar cells with Matrix Shingle technology reduces operating costs by minimizing copper connector usage.
  • · This collaboration also paves the way for higher efficiency limits in photovoltaics, potentially rising to 43.3 percent.
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