Using data science and supercomputer simulations, researchers have identified a potential crystal phase for hydrogen solidified at extreme pressures.
Elements in the periodic table can...
Researchers introduce a strategy to restore solid-state batteries low electrical resistance, exploring their underlying reduction mechanism.
All-solid-state lithium batteries have become the new requirement in...
Researchers have produced a simulation that demonstrates a unique 2D superconducting material that could make light-bending devices cheaper and easier to produce.
A new study...
New rare earth element separation technology provides insight into how to cost-effective separate in-demand rare-earth elements can be, dramatically shifting the industry to benefit...
By combining two-dimensional materials, researchers create a macroscopic quantum entangled state, labelled heavy fermion materials, that emulates rare earth compounds.
Physicists have designed a new...
Bayreuth University researchers successfully created a carbon material with a unique structure, developed under an ultrahigh-pressure technique.
Researchers at the University of Bayreuth have collaborated...
Terrance Barkan, Executive Director of The Graphene Council, explains the great potential for graphene application and the need for investment to facilitate future innovation...
Scientists at City University have analysed electrochemical Nb2CTx MXene electrodes as a possible next generation battery material.
The two-dimensional MXene has been a rising star...
Extraordinary phenomenon labelled the quantum anomalous Hall effect has been discovered in bilayer graphene.
Researchers at The University of Texas in Dallas, along with collaborators...
From concept to formulation, manufacturing to application, Graphene Composites offers global brands breakthrough technology to solve key technical challenges through nanomaterials engineering.
The Graphene Flagship’s Sanna Arpiainen explains how nanomaterials will unveil a new generation of electronics, promising new functionalities and applications.
A ‘wonder material’ trapped in the lab for almost two decades, graphene’s potential has finally been unlocked with the production of cost effective, high-quality CVD graphene.
A scientist working at the University of Texas at Arlington is developing novel synthetic materials that can enhance inorganic metal oxides for utilisation in a range of energy-saving applications.