Replacing ITO with single-walled carbon nanotubes could make perovskite solar cells cheaper, more efficient, robust, scalable and truly flexible.

Graphene perovskite reaches 30.6% efficiency, slashes costs by up to 80%, excels in low light, and adds durability with recyclable materials.

A Chinese company’s flexible perovskite-silicon tandem solar cell has achieved a power conversion efficiency of 33.35%. Longi’s solar cells’ performance result was certified by the United States’ ...

With the successful introduction of manganese into perovskite nanoparticles, researchers have 'doped the undopable'.

TOYO Co., Ltd ,  ("TOYO" or the "Company"), a solar solution company, today announced that it has acquired the remaining 24.99% membership interest in its U.S. subsidiary, TOYO Solar LLC, making it a ...

“My long-standing aim is to rethink what it truly means to be a plant,” Kenji Suetsugu, a botanist at Kobe University in ...

The 13th Malaysia Plan (MP13) is testing whether deep technology, from graphene-enhanced batteries and hydrogen refuelling to nano-based soil conditioning, can move beyond pilot projects and into the ...

L. Jay Guo, the Emmett Leith Collegiate Professor of Electrical Engineering and Computer Science, has been elected to the National Academy of Inventors for playing a crucial role in enabling the next ...

Cambridge Photon Technology is attempting to commercialize a photon multiplication technology that splits high energy photons to increase usable light for silicon cells. The UK-based startup has three ...

"Unparalleled efficiency in energy absorption." Scientists achieve major breakthrough that could make solar panels more ...

SpaceX is reportedly buying back investor and employee shares at an $800B valuation. This is double from the $400B valuation ...

As the Asian markets navigate a complex landscape marked by technological enthusiasm and economic challenges, investors are keenly observing opportunities that may arise from shifting valuations. In ...