A new “energy-multiplying” solar breakthrough could push efficiency beyond 100% and transform how we capture sunlight.

A new solar breakthrough may overcome a long-standing efficiency barrier. Researchers used a “spin-flip” metal complex to capture and multiply energy from sunlight through singlet fission. The result ...

A single chemical additive applied during perovskite film deposition helped lift a perovskite-silicon tandem solar cell to a ...

As a result, the prototype tandem solar cells not only achieved a certified efficiency of 32.76 percent but also demonstrated ...

Researchers have officially shattered the “physical ceiling” of solar energy conversion. By employing a ...

Japanese researchers developed a molybdenum-based spin-flip emitter that efficiently harvests triplet excitons from ...

A new process uses a porous substrate to absorb stray photons and recapture their energy. This approach may allow for the manufacture of cells that can be made from smaller quantities of semiconductor ...

The additive introduced into the solution for preparing the photoactive layer enhances Marangoni flow, thereby offsetting capillary flow caused by changes in the substrate’s surface energy due to ...

Tongwei is partnering with GS-Solar and Golden Solar to develop a large-scale manufacturing facility for hybrid heterojunction back-contact (HBC) solar cells that combine heterojunction passivation, ...

A KAIST research team has solved the "solar cell dilemma," in which increasing efficiency shortens lifespan, while extending ...

As countries around the world strive to reduce their carbon footprints and seek sustainable energy resources, the solar energy industry has experienced significant growth. Among the diverse process ...