Our website uses cookies

Cookies enable us to provide the best experience possible and help us understand how visitors use our website. By browsing Materials Today, you agree to our use of cookies.

Okay, I understand Learn more
Computation CHANGE TOPIC

Computation and theory news, May 2018

Stretching woven fabrics to make them stronger.

Experiment and computation combine for 2D protein crystal

A combination of experiment and computation helped to create a 2D protein crystal that toggles between states of varying porosity and density.

A novel iron-based alloy has promising magnetic properties for spintronics applications, provided it’s created in layers less than 200nm thick.

A six-atom thick bilayer of tungsten diselenide exhibited a 100-fold increase in photoluminescence when subjected to strain.

The Acta Journals are delighted to announce the recipients of the 2018 Outstanding Reviewer awards for excellence in reviewing in 2017.

A novel method of computational analysis can help predict the composition and properties of as-yet-unmade high-entropy alloys.

A new process uses mathematical algorithms to design advanced materials by reducing complexity and taking advantage of machine learning.

A new algorithm for predicting exotic materials helped to reduce the time needed to develop a thermoelectric material from 15 years to 15 months.

Using various analytical techniques, researchers have established how hydrogen bonding plays a key role in the performance of perovskite solar cells.

Salt aids the creation of 2D materials by lowering the energetic barrier that otherwise prevents the component molecules from reacting with each other.

Connect with us
What’s coming up in computation and theory…
27
Mar ’19

 
27
Mar ’19