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 new bifacial solar cell architecture developed by researchers at Soochow University, Zhejiang Jinko ...

Solar cells, devices that can convert sunlight into electricity, are now widely used in many countries worldwide. Over the past few years, energy engineers have been exploring alternative designs that ...

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 ...

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 ...

Perovskite solar cells are a high-efficiency, low-cost alternative to traditional silicon-based solar panels. With the perovskite solar cell industry expected to reach $1.2 billion by 2033, there’s ...

As a response to the global demand for clean energy transition, tandem solar cells are recognized as a crucial ...

An international research team has conducted an extensive review of all back-contact (BC) solar cell types in an effort to accelerate their commercial development. The scientists grouped the cell ...

A KAIST research team has solved the "solar cell dilemma," in which increasing efficiency shortens lifespan, while extending lifespan lowers efficiency. The team developed a technology to precisely ...

Solar cells made of organic molecules offer many advantages over their silicon cousins. They are thin, lightweight, flexible, and printable on large areas. But make the devices bendy, and their ...

ZnSc 2 S 4 exhibits a direct bandgap and can emit light from orange to blue. Its composition can be chemically tuned to switch between n-type and p-type conduction over nine orders of magnitude, ...