Computation and theory news

Novel method can predict alloy microstructures from first principles

Using the first-principle phase field method, researchers have been able to rapidly and accurately predict the microstructure of nickel-aluminum alloys.

Jagged edge makes carbon nanotubes more stable

Segregated sections of ‘zigzag’ and ‘armchair’ facets on carbon nanotubes growing from a solid catalyst are more stable than a circular arrangement.

Laser makes micromachines right

direct laser writing approach can print such shape-changing 3D polymer micromachines in a single step

Stripes good for pairing up in cuprate superconductor

Scientists studying a ‘stripe-ordered’ cuprate superconductor discovered an unusual metallic state when trying switch off its superconductivity.

New algorithm uncovers novel hard materials for drilling

A novel algorithm considers all possible combinations of elements in the periodic table in order to predict novel hard and tough materials.

Researchers discover new spintronics mode in 2D heterostructure

Scientists have discovered a previously unseen mode of a ferromagnetic property known as giant magneto-resistance in a 2D heterostructure.

Amorphous titania coating helps nanowires to split water

Researchers have shown that coating zinc oxide nanowires with amorphous titania can enhance their ability to catalyze the water-splitting reaction.

Nanowire advance into two dimensions

Selective-area epitaxy helps nanowires into 2D for more complex devices

Automated materials knowledge extraction

Automated materials knowledge extraction

Magnetism helps provide ‘pairing glue’ in iron-based superconductor

Researchers have confirmed that magnetic fluctuations can act as an electron ‘pairing glue’ in iron-based superconductors.

Block copolymers form complex patterns when frustrated

Researchers have discovered a phenomenon that allows block copolymers to self-assemble in patterns that deviate from regular symmetrical arrays.

Researchers find first native ferroelectric metal

Researchers have uncovered the first example of a native metal with bistable and electrically switchable spontaneous polarization states.

Novel thermoelectric materials uncovered by text-mining algorithm

Researchers have shown that a text-mining algorithm with no training in materials science can accurately predict novel thermoelectric materials.

Recipients of the 2018 Acta Student Awards

Jets speed up nanomaterial fabrication

By energizing precursor molecules using a supersonic jet of inert gas, researchers have been able to accelerate the fabrication of nanomaterials.

Artificial leaf provides ideal support for adsorbing MOFs

Leaves provided the template for hierarchical porous structures of mixed-metal oxides that act as supports for metal-organic framework crystals.

Scientists tailor liquefied gas electrolytes for improved battery performance

By utilizing theory and experiment, researchers have managed to improve the performance of liquefied gas electrolytes with lithium-metal anodes.

Novel gold heterostructures could play host to exotic quantum particles

Gold heterostructures could potentially be used to demonstrate the existence and nature of quantum particles known as Majorana fermions.