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

The team at the University of New South Wales (UNSW) has set a new performance benchmark for antimony chalcogenide solar ...

The Australian scientists designed the cell with a sodium sulfide additive to achieve uniform sulfur and selenium distribution, improving charge transport. This controlled elemental layering reduces ...

A team of researchers from Peking University has published a pair of papers on a new iodine technique that can boost perovskite solar cell efficiency to 24%. This is because perovskite solar cells ...

Shanghai-headquartered solar module manufacturer JinkoSolar has announced its latest breakthrough in the development of N-type TOPCon-based perovskite tandem solar cell, which achieved a record ...

The new cell efficiency comes less than a month after the company achieved the previous record with 25.9% conversion efficiency. Image: Trina Solar. Chinese solar manufacturer Trinasolar has achieved ...

Sebastian Bonilla receives funding from UK Research and Innovation, The Royal Academy of Engineering, and The Leverhulme Trust. The sight of solar panels installed on rooftops and large energy farms ...

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 ...

Illustration of all-organic solar cells and power conversion efficiencies of AOSCs described in the present study and previous reports. As global efforts to combat climate change continue, demand for ...

Perovskite solar cells are a promising alternative to traditional silicon solar panels but have poor durability. Professor Ted Sargent, Research associate professor Bin Chen, Postdoctoral fellows ...

Perovskite solar cells offer much higher efficiency than silicon. Cambridge researchers have developed a far more stable perovskite structure, stacking ultra-thin layers at atomic precision to improve ...

Single-crystalline TiO2 nanorods excel at harvesting light and conducting charge, making them ideal for solar cells, photocatalysts, and sensors. However, traditional fabrication methods link rod ...