Graphene has potential applications in the energy sector, including energy storage, solar panels, fuel cells, batteries, and thermal management due to its high conductivity, transparency, surface area ...

With a focus on graphene, the GEIC advances energy storage solutions, improving battery efficiency and sustainability for various industrial applications.

Plastics have shaped our modern world and changed the way we live. For decades, they have been primarily used in electronics ...

Another target is energy storage, potentially replacing the graphite electrodes found in batteries, capacitors and fuel cells. “If you have an inexpensive graphene nanoplatelet material and can ...

Imagine a breakthrough that makes energy storage faster, more efficient, and longer-lasting—could this change the future of ...

By harnessing the exceptional conductivity and strength of graphene, the battery achieves highly efficient energy storage and rapid charging capabilities. "Today, we mark a new era in energy ...

Such passage can be important in batteries, energy storage or biosensors. The inner edges of the pores also provide a place to attach functional chemical groups, so the graphene can be integrated ...

Plastics have revolutionized our world, shaping everything from packaging to electronics. For a long time, plastics were ...

This increased surface area is crucial because it allows for much more energy to be stored in the same volume of material, ...

A team from Australia’s James Cook University has synthesized “freestanding” graphene using non-toxic ... due to the increasing adoption of solar energy. The disposal of PV panels, which ...

and energy storage applications. The company was formerly known as First Graphite Limited. First Graphene Limited is headquartered in Henderson, Australia.