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Computation CHANGE TOPIC

Computation and theory news

Researchers have discovered that the electrical properties of quantum materials known as Weyl semimetals can be controlled with light.

Researchers have found a way to forecast likely points of failure in 2D disordered lattices without needing to study detailed states of the material.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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