An ionic elixir is being developed to extend promising perovskite solar cell lifespans. It's part of research — detailed in ...

It is not easy to bring new technologies from the laboratory to market. Researchers and companies face very different demands ...

A research team has produced a flexible perovskite-silicon tandem solar cell that converts 33.6% of sunlight into electricity ...

The polymer solar cell is able to retain 97% of its performance after 2,000 hours in air. By blending small-molecule acceptors into polymeric matrices, the research team improved molecular packing, ...

A team from the University of Stuttgart, together with international researchers, has succeeded in enhancing both the efficiency and environmental resilience of perovskite solar cells. This is another ...

The lab-scale, near-white heterojunction solar cell uses nanoclay-based scattering layers combined with dielectric multilayer films to preserve power conversion efficiency while enhancing visual ...

Researchers in China have developed a new type of polymer solar cells that deliver ...

Small household solar power systems have been gaining traction—and investment—as a means to provide affordable and ...

Dye-sensitised solar cells (DSSCs) have emerged as a promising photovoltaic technology due to their cost-effective materials, simplified fabrication processes and attractive aesthetic versatility. By ...

A large proportion of all solar cells come from China. But research and production continue in Germany. Is there still something possible?

Silicon heterojunction solar cells combine crystalline silicon substrates with thin amorphous silicon layers in order to harness the complementary benefits of both materials. The crystalline substrate ...