Description: Engineers have long dreamed of creating a wonderful material that can revolutionize construction. In 2004, their ...

Engineers use laser patterning and iron-oxide ink to control graphene growth on polymers, creating flexible microelectrodes that detect dopamine and serotonin.

Since its discovery in 2004, this single layer of carbon atoms arranged in a honeycomb structure has demonstrated a remarkable combination of characteristics that set it apart from any other known ...

Electronic behavior is a highly engaging domain for physicists exploring the properties of graphene. In this article, we discuss the relationship between stacked graphene and its electronic behavior.

The experiment also showed that tuning the light beam controlled the propulsion—the stronger the laser, the greater the ...

Graphene and diamane have emerged as pivotal materials in the field of nanotechnology owing to their remarkable mechanical strength and unique electronic attributes. Graphene, a monolayer of carbon ...

Just as embroiderers, with needle and thread, can transform plain fabric into an intricate pattern, engineers can use lasers and polymers to create flexible, complex structures that could transform ...

Due to its high electron mobilities at ambient temperature and peculiar electronic behaviors like the quantum hall effect, which imitates massless transportation and results in high superconductivity, ...

Researchers in Brazil have developed a graphene-based scaffold derived from industrial waste that attracted bone cells and ...

Researchers identify why graphene oxide selectively destroys bacteria while remaining safe for human cells, with applications from toothbrushes to sportswear.

C60 molecules on a gold substrate appear more complex than their graphene counterparts, but have much more ordinary electronic properties. This is now shown by measurements with ARPES at BESSY II and ...