In a recent study published in the Journal of the American Chemical Society, scientists proposed using guanidinium thiocyanate (GASCN) to enhance both the efficiency and stability of perovskite solar ...

New 2D magnetic material enables ultra-efficient memory, reducing energy consumption by a factor of ten. Digital data will ...

Researchers at the California NanoSystems Institute at UCLA (CNSI) have developed a new light-emitting material that’s ...

Researchers have found that a common salt can help solar cells capture more energy by giving perovskite crystals more time to grow. In a recent study published in the Journal of the American Chemical ...

This technology for creating interactive 3D visuals has long intrigued engineers and scientists, but bringing it to life hasn’t been easy. Holography allows a wavefront to be recorded and later ...

Solar cells face gradual deterioration when exposed to ultraviolet radiation, which can damage sensitive layers such as electrolytes in dye-sensitized cells. To mitigate this, manufacturers typically ...

Global electricity use is increasing rapidly and must be addressed sustainably. Developing new materials could give us much ...

A team of scientists in South Korea has set a new benchmark for solar innovation with bifacial thin-film solar cells that can generate electricity from both sides, per a release. On top of that, they ...

Experts from the International Solar Energy Society explains how regional spectral shifts of the standard spectral distribution of sunlight bring new insights into the performance of bifacial ...

The addition of rubidium chloride, N,N-dimethyloctylammonium iodide and phenethylammonium chloride reduced defects and ...

Scientists in Germany report a method to boost performance of perovskite solar cells made with laminated carbon electrodes that are compatible with typical hole transport layers.

A recent study provides evidence to help solve one of the key hurdles to large-scale manufacture of next-generation ...