Nanomaterials news, April 2022

Color-changing chameleon inspires printed photonics

colloidal photonic crystal ink enables printing of 2D and 3D colored structures using additive manufacturing techniques

Using novel nanocapsules, researchers have developed a 3D printing process that makes it possible to print an object within a volume of resin.

Researchers have discovered that laser light can trigger a type of magnetism in the superlattice formed by two nonmagnetic 2D materials.

Scientists have grown thin films of two different crystalline materials on top of each other using an innovative technique called ‘dative epitaxy’.

Utlizing molecular-beam epitaxy, researchers have developed a novel process for growing single layers of hexagonal boron nitride on graphene.

By coating nanomaterials with inorganic compounds, researchers have been able to use X-ray tomography to see inside them in unprecedented detail.

Atomic vibrations known as phonons can function as a knob to tune the magnetic bonding between the atomic layers in manganese bismuth telluride.

A new low-temperature annealing method can produce an alloy of gold and silver that is able to reflect every color in the spectrum.

Researchers have developed a novel way to produce doped graphene by modifying their flash Joule heating process.

A new additive material comprised of tantalum-titanium oxide nanoparticles can soak up corrosive free radicals in fuel cells.

Novel water-stable, 2D covalent organic framework nanoparticles can direct the differentiation of human stem cells into bone cells.

Researchers have developed a nitrogen-doped carbon-coated nickel catalyst that can replace expensive platinum as the anode in fuel cells.

News archive…

Connect with us
Most viewed in nanomaterials…
Review
 

Current research
 

News
 

Using a novel manufacturing platform, researchers have increased the electrical conductivity of copper wires by incorporating graphene into them.

News
 

A research group has reported, for the first time, gas detection properties in nanorods of silver tungstate in its alpha phase (α-Ag2WO4).

Comment