By 2030, graphene’s market may rise from $1.2B to $3.58B, giving you clear context on where sensors, batteries, and concrete ...

Enthusiasts thought the discovery that graphene, a form of carbon, could be extracted from graphite would change the world.

Graphene has the potential to spur advances in a variety of sectors, from transport to medicine to electronics. Unfortunately, the high cost of graphene production has slowed commercialization.

Recent research has found a new way to make graphene that adds structural defects to improve the performance of the material that could have benefits across a range of applications - from sensors and ...

Scientists at UC Santa Cruz and Lawrence Livermore National Laboratory (LLNL) have reported the first example of ultrafast 3D-printed graphene supercapacitor electrodes that outperform comparable ...

Graphene has long been sold as a wonder material, but the real story in 2025 is how quickly it is being reshaped around sustainability. Cleaner production methods, circular design and climate-focused ...

Graphene has been very hot in scientific circles since it was first produced in 2004. This one-atom thick layer of carbon has been found to have such remarkable properties that its discoverers were ...

Japanese battery innovators are racing to solve the slow‑charging bottleneck that still frustrates drivers and device makers, ...

The past decade has seen explosive interest in graphene, a single-molecule-thick sheet of carbon atoms with amazing properties. It has been put forward as a potentially revolutionary material for ...

Writer and occasional reluctant perpetrator of engine swaps, James O'Neil is a malaise era enthusiast and also fascinated by the many ways the auto industry has since recovered from those dark days.

Graphene is a wonder material consisting of a single atomic layer of carbon atoms packed in a honeycomb crystal lattice. This one-atom-thick sheet represents the thinnest material possible and boasts ...