(Nanowerk Spotlight) Photonic integrated circuits, which use light instead of electricity to transmit and process information, have emerged as a critical technology for fields such as ...

GO is a derivative of graphene - the single-layer carbon material that sparked a scientific revolution when it was first isolated in 2004. Unlike pristine graphene, GO contains oxygen-containing ...

The graphene heating films market is growing rapidly due to their outstanding thermal conductivity, flexibility, and ...

Scientists have announced a groundbreaking development in hydrogen ion barrier films using graphene oxide (GO) that lacks internal pores. This innovative approach promises significant advancements in ...

Indian scientists have fabricated perovskite mini-modules with reduced graphene oxide interface engineering, achieving 16.6% efficiency and over 1,300 hours of stable operation. The graphene oxide ...

Researchers report ” enhanced nonlinear optics in nanowires, waveguides, and ring resonators by introducing layered 2D graphene oxide (GO) films through experimental demonstration.” ...

The research team at Kumamoto University, under the direction of Assistant Professor Kazuto Hatakeyama and Professor Shintaro Ida of the Institute of Industrial Nanomaterials, has reported a ...

Laser-scribed graphene is a versatile technique that involves the use of a high-power laser to directly pattern and reduce graphene oxide (GO) films into graphene structures under ambient conditions ...

Graphene, a remarkable two-dimensional material composed of a single layer of carbon atoms arranged in a hexagonal lattice, has garnered substantial attention in the scientific community due to its ...

Numerous pores were observed in GO (indicated by white arrows). In contrast, no pores were visible in Pf-GO, even under high magnification. Kumamoto University’s research team, led by Assistant ...