Solar energy continues to grow as a key pillar of the global energy transition, but improving performance while keeping costs ...

The introduction of a nanometric germanium oxide layer drastically improved device performance and stability. As the global demand for clean energy accelerates, solar power continues to attract ...

Researchers at the Ningbo Institute of Materials Technology and Engineering (NIMTE) at the Chinese Academy of Sciences have found a new way to stick different layers of tandem solar cells and achieved ...

Nanotechnology enables the use of materials with unique optical, electrical, and thermal properties. These materials can be engineered to absorb sunlight more efficiently, reduce energy loss, and ...

An Oxford researcher has found that transparent conducting electrodes can reduce perovskite–silicon tandem solar cell ...

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 ...

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 ...

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 ...

An international team of researchers demonstrated perovskite solar cells treated with a molecular passivator based on π-conjugated terpyridine Lewis-base molecules that achieved 25.24% power ...

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 ...