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.
By controlling the distance between nanoparticles in a single layer, researchers have made a filter that can change between reflecting and transparent.
By altering the proportion of the ingredients in a lithium-based material, scientists have found a good candidate for a solid-state electrolyte.
Fernando Torres recipient of 2017 Embracing Challenge award
Coming soon, to a bookshelf near you.
Materials Characterization and HardwareX are teaming up to showcase research that is undertaken using hardware designed by scientists.
Scientists have discovered the mechanism that causes cracks to behave strangely when they spread very rapidly in brittle materials.
Computational modelling with a supercomputer has revealed how different solidification speeds alter the microstructure of a novel alloy.
Using electron microscopy, scientists have discovered that silica nanoparticles form quasicrystals as they grow and evolve.
Detailed tests have helped to reveal why one promising material added to the electrolyte of lithium-air batteries doesn't work as well as expected.
Why a joint offering between Microelectronic Engineering and HardwareX?
Simultaneous design and nanomanufacturing speeds up fabrication.
Scientists have used machine learning to gain insight into the physical structures associated with specific properties of metals and alloys.
Scientists have simultaneously designed an optimal material for light management in solar cells and fabricated the nanostructured surfaces.
A newly discovered collective rattling effect in a crystalline semiconductor blocks most heat transfer while preserving high electrical conductivity.
Learn more about Citrine Informatics' partnership with Elsevier and Acta Materialia Inc.
Scientists have made the first observation of nanocrystals rapidly forming superlattices while they are themselves still growing.
Scientists have predicted and created new 2D electrocatalysts able to extract hydrogen from water with high performance and low cost.
Defects in the structure of topological insulators can cause electron transport to occur in the bulk rather than just at the surface.
Under certain conditions, the magnetic properties of a material can predict the relationship between its elasticity and temperature.
By combining tools from chemistry, mathematics, physics and materials science, researchers have found a way to identify novel topological insulators.
Materials Today is delighted to announce the launch of Applied Materials Today.
Learn more about the newest addition to the Materials Today family.