N-ink, a spinoff of the Linköping University, has developed conductive inks that can be used in the charge extracting layer ...

A flexible artificial leaf mimics aquatic plants' light-tracking, increasing solar fuel production by up to 866% even at steep angles - without motors or external controls.

An international team of industry and researchers is developing technology and methods to improve the industry's ability to recycle decommissioned solar panels, avoiding waste and targeting recovery ...

Solar panels contain many valuable materials. Still, most of them end up discarded after use. Now researchers are investigating new ways of recycling.

Using this new polymer layer positively changed how the cell’s chemistry behaved. Scientists make astonishing breakthrough in ...

The solar industry recently welcomed the largest silicon solar cell manufacturing outfit to ever open its doors within the ...

Lightweight, robust, radiation-resilient photovoltaics are critical technologies for many aerospace applications. OPV cells ...

naturally occurring polymer P3HB can be chemically re-engineered for use as a strong yet sustainable bonding agent. Adhesives are commonly used in automotives, packaging, electronics, solar cells ...

naturally occurring polymer P3HB can be chemically re-engineered for use as a strong yet sustainable bonding agent. Adhesives are commonly used in automotives, packaging, electronics, solar cells ...

N-ink, a spinoff of the Linköping University, has developed conductive inks that can be used in the charge extracting layer of organic solar cells and in transport layers of perovskite solar cells.

Maintaining Quality in Composites Prep for Strong Bonds . Bond failures can have severe consequences for manufacturers, ...