Scientists unlock long -term perovskite solar technology
Researchers from the University of Surrey have developed a breakthrough approach that could considerably extend the lifespan of Perovskiet solar cells up to ten times. Their findings reveal that embedding aluminum oxide (AL2O3) helps nanoparticles in the cells to improve stability and sustainability, making one of the most important restrictions hind the commercialization of Perovskiet -Technology.
Although perovskite solar cells offer a lightweight and cost -effective alternative to traditional solar panels based on silicone, they have struggled with long -term reliability as a result of iodine leak, which leads to material breakdown.
In collaboration with the National Physical Laboratory and the University of Sheffield, the research team discovered that recording Al2O3 -NOanopeeltjes effectively catches iodine, breaking down the overall performance of the cells.
Dr. Hashini Perera, a postdoctoral research student and the main author of the study of the Advanced Technology Institute at the University of Surrey, has enthusiastic about the findings: “It is incredibly exciting to see our approach to an impact. A decade of perovyteendeing breaks the idea of perovite-having reasoning. Closer when becoming a regular energy solution. “
The study, published in *Ees Solar *, tested the modified solar cells under extreme heat and humidity to simulate Real-World circumstances. The results showed that perovskiet solar cells strengthens a high efficiency with AL2O3 nanoparticles for more than two months (1,530 hours), a remarkable improvement compared to the 160-hour performance of non-modified cells.
Further analysis indicated that the nanoparticles not only strengthened the perovskiet structure, reducing defects and improving electrical conductivity, but also facilitated the formation of a protective 2D perovskiet layer. This extra layer helps protect the cells against moisture -related breakdown, which further improves their lifespan.
Dr. IMALKA JAYAWARDENA of Surrey’s Advanced Technology Institute emphasized the importance of this breakthrough: “By taking on these common challenges that we see with Perovskite Solar Technology, our research blows the doors wide open for cheaper, more efficient, more accessible Solar Power. Commercial use on a worldwide scale.”
Professor Ravi Silva, director of the Advanced Technology Institute and Interim Director at the Surrey Institute for Sustainability, emphasized the wider implications of the discovery: “With the deadline for net zero goals approaching quickly, expanding access to renewable energy sharing is, while we are our reliance, while we are our reliance-fossilings, while we are our Vross-Fossheshingings, while we have a boing-fits, postings, postings, postings, postings, postings, postings, postings, postings sharing posts. Vitalization of the world of vitalization.
Recent analysis by the Confederation of the British industry also emphasizes that the training in the renewable energy sector not only improves career perspectives, but can lead to wages above the national average, which enhances the economic and ecological benefits of investing in clean energy. “
Research report:Improved stability and electronic homogeneity in perovskite solar cells buried via a nanoengineer oxide -interlayer