Abstract: Photothermal graphene resonant sensors hold significant promise for micromechanical sensing due to their superior mechanical and thermal properties. This study investigates the resonant and ...

Organic chemistry, the chemistry of carbon compounds, is the basis of all life on Earth. However, metals also play a key role in many biochemical processes. When it comes to "marrying" large, heavy ...

Researchers from the University of California San Diego Sanford Stem Cell Institute have developed a novel method to stimulate and mature human brain organoids using graphene, a one-atom-thick sheet ...

GraMOS works by using graphene’s unique optoelectronic properties to convert light into gentle electrical cues that encourage neurons to connect and communicate. Photo Credit: Wirla Pontes Researchers ...

Graphene, a single layer of carbon atoms arranged in a hexagonal lattice, is the thinnest material known to exist and yet is about 200 times stronger than steel. In the 20 years since its first ...

Graphene’s unique properties continue to drive breakthroughs from quantum computing to sustainable concrete. As research accelerates, its role in next-generation technologies is becoming clearer, and ...

Graphene-based BCI demonstrates high-resolution brain decoding and mapping in patients undergoing tumor resection at the Manchester Centre for Clinical Neurosciences Initial four patient cohort has ...

Scientists have built a graphene-based device that can taste with near-human accuracy in a breakthrough that pushes artificial sensing closer to human ability. The system uses machine learning to ...

A team of researchers report in the Proceedings of the National Academy of Sciences on a new graphene-based sensor design that, through machine learning, was able to develop a near-human sense of ...

Artist’s impression of the quantum spin Hall effect in a graphene-based spintronic device, integrated in a chip. The blue and red spheres are spin-up and spin-down electrons traveling along the edge ...

Researchers have achieved a major breakthrough by generating quantum spin currents in graphene—without relying on bulky magnetic fields. By pairing graphene with a magnetic material, they unlocked a ...