The innovation from researchers in electrical and computer engineering at the University of California, Santa Barbara, is all about making a complete integrated circuit design, complete with ...

Memory chips store data as a string of ones and zeroes. Today most memory chips are based on silicon, and come in two basic types – volatile and non-volatile. Volatile memory, such as random access ...

Engineers are developing a technique for mass-producing computer chips made from graphene – the same material found in pencils – that could deliver smaller, faster electronics.

The researchers grew the graphene sheet in a special furnace, and added other substances to the mix to give it the needed properties. The new material has superior properties.

Graphene usually comes in the form of a powder made of small, individual sheets that are roughly the diameter of a grain of sand. An individual sheet of graphene is 200 times stronger than an ...

Cold Fusion. This Graphene Chip Could Change Computing Forever. Posted: April 30, 2025 | Last updated: April 30, 2025. For years, graphene was the wonder material that never made it out of the lab.

A team of scientists have determined graphene, the same substance found in common pencil lead, can act as a semiconductor—helping set it on the path to one day be turned into computer chips.

IBM Corporation showed off graphene wafers as early as 2010, so research into graphene has been going on for a long time now. Back then, the chips showed transistor frequencies of up to 100GHz ...

Only an atom thick, graphene is a key ingredient in three Stanford projects to create data storage technologies that use nanomaterials other than standard silicon. The memory chips in phones ...

Only an atom thick, graphene is a key ingredient in three Stanford projects to create data storage technologies that use nanomaterials other than standard silicon The memory chips in phones ...

Only an atom thick, graphene is a key ingredient in three Stanford projects to create data storage technologies that use nanomaterials other than standard silicon. Professor H.-S. Philip Wong ...