Computation CHANGE TOPIC

Computation and theory news

New material makes data encryption safer

A hybrid catalyst comprising a layer of zinc on copper can efficiently convert carbon dioxide and waste nitrogen into the fertilizer urea.

Researchers have developed a new machine-learning model for discovering magnetic materials that are free of critical elements.

A computer model of realistic graphene structures has shown that graphene doesn't need to be perfect to be used for technological applications.

Researchers have developed a framework for predicting how the structure of solid-state electrolytes can affect the performance of a battery.

Researchers have visualized the microscopic behavior of interacting electrons that gives rise to the insulating quantum phase of twisted bilayer graphene.

Advanced functionalities of non-collinear antiferromagnets

new family of low density TiMgLi-based compositionally complex alloys promise hydrogen storage at room temperature

By combining pyrolysis and hydroformylation, researchers have developed a novel process for turning low-value waste plastic into high-value products.

Using computer simulations of glass-forming particles, researchers have discovered a new type of exotic ordering that can influence glass formation.

For the first time, researchers have shown that it’s possible to reproduce brain-like, non-local behavior in a quantum material.

A novel robot called RoboMapper can conduct experiments more efficiently and sustainably to develop new semiconductor materials with desirable properties.

Researchers have shown the importance of elastic heterogeneity for tuning the molecular adsorption/desorption properties of metal–organic frameworks.

For the first time, scientists have witnessed pieces of metal crack then fuse back together without any human intervention.

Researchers have shown that a traditional manufacturing tool called metal cutting can be used to determine the properties of metal materials.

Recycling a common plastic using electricity and some chemistry

Researchers have shown that adding a simple sugar to the electrolyte of a flow battery can improve its longevity and capacity.

Using high-powered X-rays and machine learning, researchers have developed a method for visualizing intricate nanotextures in thin-film materials.

A novel mathematical algorithm can predict the crystal structure of any material just based on knowledge of the atoms that make it up.

A speedy new method for predicting cement durability uses computer vision to measure the behavior of water droplets on cement surfaces.

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