Long before perovskite solar cells began smashing efficiency records and transforming the future of clean energy, their modern design first emerged from a quiet experiment at Northwestern University.

NUS researchers have developed a vapor-deposition method that dramatically improves the long-term and high-temperature ...

Solar panels are an increasingly efficient, cost-effective, and higher-power-density renewable-energy source, though most ...

Scheme showing part of a singlet fission-sensitized silicon solar cell. Absorption of a high-energy photon by the tetracene layer produces a singlet exciton. This singlet exciton undergoes singlet ...

Solar cells, devices that can generate electricity from sunlight, are already helping to reduce fossil fuel emissions in many ...

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 ...

A research team led by Prof. Ye Jichun from the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the ...

Researchers from Canada have developed solar cells that boast a record-breaking open circuit voltage. The solar cell design features indium gallium phosphide (InGaP), indium gallium arsenide (InGaAs), ...

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

Researchers have developed a new type of back-contact solar cell design that will enable scalable, low-cost manufacturing as it uses a perovskite material and tiny grooves embossed into plastic film.

A new method could make perovskite solar cells last longer and work better using special liquids. Could this be the key to ...