Researchers led by the University of Rochester claim to have increased the photoresponsivity of a lead-halide perovskite for solar cell applications by 250%. They created a perovskite film with a ...

UNSW researchers have developed an intrinsic-adjusted single-diode model that explicitly accounts for radiative and Auger ...

This is what’s known as electron recombination. The researchers found they were able to drastically reduce electron recombination in perovskite by placing it on a substrate made up of either silver ...

The study demonstrates a breakthrough in hydrogen production from seawater using carbon nitride, highlighting its potential ...

Light can hit a lead halide perovskite crystal that is anything but pristine and still end up as useful electric current. That mismatch has bothered solar researchers for more than a decade. Silicon ...

Developed by researchers in China, the inverted perovskite device purportedly achieves the smallest nonradiative recombination-induced open-circuit voltage loss reported to date. It uses a synergistic ...

Tsukuba, Japan—Perovskite solar cells are gaining attention as the next generation of solar technology due to their high efficiency, flexibility, and potential for printing. Although lead-based ...

Northwestern University researchers have raised the standards again for perovskite solar cells with a new development that helped the emerging technology hit new records for efficiency. The findings, ...

Despite their clear efficiency advantages, high-resistivity, lightly doped silicon wafers have seen limited adoption ...

Plasmonics is the study of the interaction between electromagnetic waves and free electrons in a metal. When light strikes a metal nanostructure, it can excite collective oscillations of the free ...