Since its first successful isolation in 2004, graphene has undergone many evolutionary steps and inspired a plethora of applications ranging from electronics to life science. Graphene is typically ...

Atomic-scale laser treatment enhances laser-induced graphene for efficient electrothermal heating and water purification through improved conductivity and structure. (Nanowerk Spotlight) Graphene’s ...

The study focused on Eosin Y, a widely used xanthene dye, which exhibited excellent stability and structural properties ideal for laser conversion. While most existing LIG production relies on polymer ...

A recent study published in Nature Electronics 10.1038/s41928-023-01091-y discusses stretchable graphene–hydrogel interfaces for wearable and implantable bioelectronics. Stretchable and conductive ...

Can you make a supercapacitor from kapton tape? Yep! Using a laser, we can decompose the Kapton (polyimide) into a graphene ...

In a recent article published in Scientific Reports, researchers presented a comprehensive study on the development and performance evaluation of silver-coated laser-induced graphene (LIG) strain ...

This supercapacitor doesn’t look like much—but the physics behind it is solid. Using Kapton tape, a cheap laser, and basic tools, this project creates laser-induced graphene with surprising ...

The graphene layer improves ultra-violet light absorption, evenly distributes heat, and reduces adhesion, resulting in flawless and flexible displays. This innovation brings us closer to ...