McGill University engineers have developed ultra-thin materials that can move, fold, and reshape themselves, ...

Transparent electrodes transmit light while conducting electricity and are increasingly important in bioelectronic and optoelectronic devices. Their combination of high optical transparency, low ...

A research breakthrough could open the door to more sustainable materials for a range of advanced technologies - from smart ...

McGill University engineers have developed new ultra-thin materials that can be programmed to move, fold and reshape ...

One-step, etch- free patterning enables clean, low-resistance graphene electrodes for transparent and flexible devices.

A research breakthrough could open the door to more sustainable materials for a range of advanced technologies - from smart ...

Transparent electrodes transmit light while conducting electricity and are increasingly important in bioelectronic and optoelectronic devices. Their combination of high optical transparency, low ...

Researchers at McGill University have developed ultra-thin materials that can be programmed to move, fold and reshape ...

Transparent electrodes transmit light while conducting electricity and are increasingly important in bioelectronic and optoelectronic devices. Their ...

Plaid Technologies Inc. (CSE: STIF) (OTC: STIFF) (FRA: 5QX0) (“ Plaid ” or the “ Company ”) today announces the launch of a strategic collaboration with Graphene Nanoworks Ltd. (“GNW”) to assess the ...

Monash University researchers have developed a green, solvent-free method to produce nitrogen-doped graphene nanoplatelets.

As lithium-ion batteries become smaller and therefore more power-dense, to fit inside compact domestic products, ...