Materials Science CHANGE TOPIC

Materials Science news, December 2023

Researchers have developed a new computational tool to describe how the atoms within quantum materials behave when they absorb and emit light.

Using an advanced imaging technique, researchers have mapped, for the first time ever, the 3D atomic coordinates of medium- and high-entropy alloys.

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

A novel superconducting material is uniquely sensitive to outside stimuli, allowing its superconducting properties to be enhanced or suppressed at will.

A 3D model created by AI helped researchers to understand the formation of dislocations in complex polycrystalline materials.

Using lasers, researchers have managed to observe the ballistic movement of electrons in graphene in real time.

By stacking and twisting two layers of cuprate crystals, researchers have created the world’s first high-temperature superconducting diode.

Researchers have demonstrated that the magnetic moment of chiral phonons is significantly enhanced in topological materials.

By conducting laser annealing in a vacuum, researchers have managed to create a transparent magnetic material.

Researchers have identified a welding technique that can join composite metal foam components together without impairing their properties.

Researchers have combined two nanosized crystalline materials onto a single chip and shown that one can efficienctly transmit light to the other.

Using a new, multiscale approach, researchers have increased the resistance to crack growth of particle-reinforced rubber.

Infrared supermirrors use new paradigm in coatings

New 3D printing method for non-invasive surgery

tailored dendrites can be exploited to create hierarchical structures in metal alloys that boost both strength and ductility

Improving 2D-materials-based electronic devices

driver training assistance system uses triboelectric sensors on gear shift, steering wheel, and pedals to monitor driving behavior in real time

Researchers have developed a novel fiber where one side is flexible cotton and the other side is a conductive polymer.

Using multimaterial 3D printing, researchers have created self-heating microfluidic devices with built-in heating elements.

By combining chitosan from crabs and agarose from seaweed, researchers created biopolymer composite films with enhanced strength.

Researchers have developed two new ways of making wafer-scale carbon nanotube thin films with tunable chiral properties.

By engineering surface forces, researchers can directly integrate 2D materials into devices in a single contact-and-release step.

Researchers have developed a cobalt catalyst that can selectively functionalize specific carbon-hydrogen bonds in compounds with lots of them.

Researchers have devised a machine-learning-based tool for investigating in detail how materials behave at their surfaces.

Using advanced thin-film coating and microfabrication techniques, researchers have developed the first true supermirror for mid-infrared wavelengths.

Researchers have developed an inoganic stamp that allowed them to create the cleanest and most uniform stacks of 2D materials to date.

Researchers have shown that acoustic emissions can be used to detect defects during the laser additive manufacturing of metallic objects.

By just adding a bit of hydrogen to the fabrication process, researchers have created a low-cost, strong and effective fuel cell catalyst.

By finding a way to make organic componds known as acenes more stable, researchers have got them to emit different colors of light.

Using diamond quantum magnetometry. researchers have, for the first time, detected magnetic monopoles in a material closely related to rust.

Nanorod-based piezo-electrocatalytic device shows promise for non-invasive use

By mapping the structural features of a 2D ferroelectric material, researchers have revealed how domains in the material impact its behavior.

Novel, lightweight TENG performs as well as heavier commercial systems

Researchers have used piezoelectric nanoparticles to investigate the physical forces at play in non-Newtonian fluids.

Even at large scales, the amount of friction between two silicon surfaces is determined by microscopic chemical bonds between them.

Researchers have developed a new catalyst that quickly, cleanly and efficiently breaks down Nylon-6 into its component monomers.

Researchers have found that a 170-year-old law relating electronic conductivity to thermal conductivity does still apply to superconducting cuprates.

By packing together multiple 2D materials, researchers have created a multifunctional 3D-integrated chip for artificial intelligence computing.

An AI tool called GNoME worked with an AI-guided robot called A-Lab to create more than 40 novel materials in just 17 days.

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