Musket balls that have been buried in soil for hundreds of years can be converted into a key ingredient for next-generation ...

Perovskite solar cells shouldn’t work as well as they do—but they do. Scientists have now discovered that defects inside the material actually help, creating networks that separate and guide electric ...

Kerala University researchers create a lead-free, high-efficiency solar cell using tin and rare earth metals for sustainable energy.

A University of Sydney-led team has achieved a global efficiency record for a large triple-junction perovskite solar cell, converting sunlight into electricity at rates that place perovskite ...

Materials research suffers from trial-and-error synthesis and fabrication, while the resulting numerical datasets fail to ...

A novel thin-film technology enables solar panels to generate electricity from both sunlight and raindrops.

Recently, perovskite solar cells have emerged as a promising alternative to traditional silicon panels, offering potentially higher efficiency and lower production costs. With the increased demand for ...

Researchers have developed a molecular design strategy to stabilize the delicate interface in inverted perovskite solar cells. By enforcing multidimensional spatial confinement in a custom-designed ...

German and Swedish researchers have found that rapid temperature cycling degrades perovskite cell performance through thermally induced stress and phase transitions, while also identifying organic ...

Researchers in Singapore have developed fully vacuum-processed ultrathin perovskite solar cells with absorber layers as thin as 10 nm, achieving high transparency and stable efficiencies up to 12%.

The latest Trinasolar module has an output of 808W. Image: Trina Solar. Leading Chinese module manufacturer Trinasolar has developed an 808W solar module that uses perovskite/silicon tandem solar ...