UNSW engineers have made a major step forward in the development of a new type of solar cell that could help make future ...

By protecting the surface during heating, the team reduced the chance that tiny flaws would grow into long-term failures.

Perovskite solar cells (PSCs) are known for their impressive ability to convert sunlight into energy, their low production ...

Engineers at UNSW Sydney have developed a way to monitor solar cells at a microscopic level while they are operating to ...

Solar cells face significant challenges when deployed in outer space, where extremes in the environment decrease the efficiency and longevity they enjoy back on Earth. University of Toledo physicists ...

GIST researchers have developed a perovskite mini-module with 22.56% efficiency by improving the SnO₂ electron transport layer with PEI, reducing defects and electron loss. The module retained 94% of ...

Canada’s UBC creates bacteria‑powered solar cells that generate strong current and work even in dim, cloudy light—an affordable leap for photovoltaics.

The research team at Australia's University of New South Wales (UNSW) has improved the performance of solar cells made from antimony chalcogenide, an emerging photovoltaic material regarded as a ...

Engineers at the University of New South Wales have developed a real-time monitoring technique that reveals how silicon solar ...

Perovskite solar cells are a high-efficiency, low-cost alternative to traditional silicon-based solar panels. With the perovskite solar cell industry expected to reach $1.2 billion by 2033, there’s ...

What if the future of solar energy wasn’t just brighter but fundamentally redefined? Imagine a world where solar panels are not only more efficient but also cheaper, more durable, and adaptable to ...

Imagine two homes on the same street, with the same-sized roofs, both fitted with solar panels. Yet one home consistently generates more electricity than the other. The difference comes down to solar ...