Innovative micro- and nanoscale designs enhance thermal management, addressing overheating in electronics. They may be the ...

Researchers at INL, part of the Diéguez group and led by Sara Abalde-Cela, have engineered a plasmonic substrate that ...

Insights into water behavior on 2D materials, such as graphene and h-BN, could completely transform surface design for ...

Innovative lanthanide-doped nanoparticles enable electrically driven NIR-II LEDs, enhancing bioimaging and optical ...

Researchers at Karlstad University synthesized a novel cellulose nanomaterial that employs a specialized Fenton oxidation ...

The Internet of Nano Things (IoNT) has transformed connectivity with nanosensors, enabling efficient data exchange and ...

Synthesized graphene can be made by mixing water, detergents, and solvents with graphite powder at ambient temperature and atmospheric pressure. This method was developed by Jonathan N. Coleman, a ...

The nanoparticle core consists of a Prussian blue analog (PBA), a redox-active material capable of sending electrochemical signals. The shell is made of molecularly imprinted polymer (MIP) nickel hexa ...

There has been significant practical interest in the conductivity of CNTs. CNTs with particular combinations of M and N (structural parameters indicating how much the nanotube is twisted) can be ...

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 ...

Metal and metallic alloy casting is widely used for manufacturing components in high-performance industries, including automotive and aerospace. However, cast metallic alloys often exhibit limitations ...

Semiconductor materials possess unique – and tunable – energy conductivity properties; as small band gap insulators, they can amplify an electron’s signal, for example, or only allow them to flow in ...