(Bitterfeld-Wolfen, Germany) - May 14, 2025 - Qcells, a premier provider of complete energy solutions and global solar energy market leader, today announced it has achieved successful stress test validation for its tandem modules, according to both IEC and UL certification standards.These tests also complied with tandem-specific requirements for power measurements, making them a key first in the industry.The standard-compliant execution of the stress tests and measurements has been independently confirmed by TÜV Rheinland.
After announcing world-record efficiency for a commercially scalable perovskite/silicon tandem solar cell in December 2024, Qcells has now achieved this major milestone in durability that reinforces the company's leadership in advancing tandem technology toward real-world, commercial deployment. More HeadlinesCHINT Global Showcases Full-Chain Innovation and Integration Leadership at Intersolar Europe 2025 RS and ebm-papst enable renewable energy infrastructure Anza Launches Energy Storage Pro, a First-of-its-Kind Subscription Data & Analytics Platform to Accelerate Energy Storage Development and Project Timelines Dongguk University Scientists Uncover Novel Battery Design for Industrial Energy Storage Tandem PV Appoints Clemens Hofbauer as VP of Manufacturing to Scale U.S.Production of High-Efficiency Perovskite Solar PanelsArticlesDistrict Energy Technology for Data Centers Hyundai Motor and Plus Unveil Concept for Autonomous Hydrogen Freight Ecosystem The Truth Behind Second-Life Batteries: Why Reuse Is Lagging Behind MyGrid 10K Whole Home Generator Gen Z and Millennials in the Renewable Energy WorkforceTandem technology, which is the pairing of perovskite cells with standard silicon cells, has long shown promise in laboratory settings for improving overall efficiency.
It has demonstrated the potential to further reduce the cost of solar energy, and the land footprint required for solar projects, thus helping accelerate the transition to cleaner, more efficient energy.However, long-term stability and standardized measurement posed challenges for commercialization.By successfully passing the most critical stress tests for solar cell reliability, especially considering tandem-specific restrictions on power measurement, Qcells has demonstrated that tandem technology can now meet the performance benchmarks that set the groundwork for commercial acceptance.
"To Qcells' knowledge, this is the first report of tandem modules passing these stress tests, considering tandem-specific restrictions on power measurement, so this is truly a pivotal moment for tandem solar technology," said Danielle Merfeld, Global Chief Technology Officer at Qcells."Qcells' breakthrough marks a critical step towards commercial readiness." "Qcells is pleased to announce this outstanding stability achievement based on our in-house developed perovskite technology as a top cell, and cost-efficient Q.ANTUM silicon technology as a bottom cell," said Fabian Fertig, Head of Tandem R&D at Qcells Germany."The tested cells and modules are typical devices from our R&D pilot line in Germany and have been fabricated by exclusively using processes that are feasible for mass production.
This result is laying the groundwork for future commercialization of this exciting technology." Qcells' tandem cell technology features a 2-terminal device architecture, which is composed of a perovskite technology top layer and silicon bottom layer featuring Qcells' proprietary Q.ANTUM technology.The core of this latest achievement by Qcells involves successfully passing the most critical stress tests for solar cell reliability according to International Standards IEC 61215-2:2021 and UL 61215-2:2021.These include the UV preconditioning test for 15kWh/m2 (MQT10; UV15), thermal cycling test for 200 cycles (MQT11; TC200), humidity-freeze test for 10 cycles (MQT12; HF10), and damp heat test for 1000h (MQT13; DH1000).
These stress tests have been successfully passed by fulfilling the tandem-specific requirements for power measurements as specified in International Standard IEC TS 60904-1-1 for multi-junction modules. The tested modules were fabricated using Qcells' tandem R&D pilot line in Bitterfeld-Wolfen, Germany, by incorporating tandem solar cells on full-area M10 substrates and applying exclusive mass-production processes for cell and module fabrication. The Bitterfeld-Wolfen R&D Center in Germany is supported by funding from the German Federal Ministry for Economic Affairs and Climate Action (BMWK), the state of Saxony-Anhalt and the European Union, including the light-house project PEPPERONI, along with the Dutch and Swiss governments.
Qcells' Pangyo R&D center, appointed as a research institute for national projects, has received ongoing support from the Korean government to develop commercially viable tandem cell technology.
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