Cambridge working to unlock new solar energy pathways

Cambridge working to unlock new solar energy pathways

by Sophie Jenkins

London, UK (SPX) Mar 21, 2024

In a study conducted by the University of Cambridge’s Cavendish Laboratory and AMOLF in Amsterdam, researchers have uncovered innovative methods to enhance solar energy capture, shifting the focus from solely improving solar cell efficiency. The study, recently published in Joule, delves into the application of machine learning and neural networks to analyze solar radiation patterns across the globe, aiming to optimize solar cell output in various geographical settings.

Despite the initial goal to boost solar cell efficiency through increased sunlight concentration, Dr. Tomi Baikie, the study’s lead author, reveals, “Making solar cells super-efficient proves to be a challenging endeavor. Our research, however, opens up alternative avenues for enhancing solar energy capture, offering diverse solutions particularly beneficial for communities worldwide.”

The team’s findings suggest a paradigm shift towards developing solar panels that are not only more durable and versatile but also aesthetically adaptable to their surroundings. Such innovations include flexible, semi-transparent panels capable of folding like origami, enabling easy integration into a variety of environments.

Dr. Baikie explains, “Our proposal encourages the design of solar panels that can thrive in numerous global locations through their flexibility and semi-transparency. This adaptability could revolutionize the way solar panels are deployed, making solar energy more accessible and efficient.”

Additionally, the research emphasizes the strategic patterning of solar capture devices to maximize sunlight absorption. This novel approach aims to optimize the layout of solar arrays, significantly enhancing their solar energy harnessing capability.

“We’re now exploring solar harvesting pathways that incorporate tessellation, a puzzle-like pattern arrangement that promises to elevate our sun power capture methods,” Dr. Baikie concludes, pointing to a future where solar energy’s potential is unlocked through creativity and technological innovation.

Research Report:Revealing the potential of luminescent solar concentrators in real-world environments