With the advancement of nanotechnology and microelectromechanical systems (MEMS) manufacturing, it is important that surface quality and functionality are equally advanced for the field to reach a higher standard.
By Marzia Khan
10 May 2021
Graphene Flagship – a European Commission-funded vehicle for graphene research and innovation – has announced its latest project will deliver next-generation aerospace filtration using heatable aero-graphene foams.
By Ben Pilkington
7 May 2021
The G+BOARD project by the Europe-based Graphene Flagship consortium is dedicated to developing a graphene-based, metal-free automotive instrument board and steering wheel that enhance performance, reduce manufacturing costs, and decrease fuel costs for customers.
By Brett Smith
7 May 2021
Determining the size of nanoparticles is one of the most important factors in nanotechnology as it defines the unique characteristics of nanomaterials.
By Sarah Moore
6 May 2021
Graphene possesses a number of properties that make it suitable for many applications—from low-tech additive to high-tech electronic applications.
By Liam Critchley
6 May 2021
Several Graphene Flagship partner companies have introduced layered solar technology based on graphene and related materials that promises to increase the efficiency and stability of thin-film perovskite technology.
By Brett Smith
6 May 2021
Researchers at the University at Buffalo (UB) have developed a novel 3D-printed scalable water-purifying graphene aerogel with the potential to be used in large industrial wastewater treatment plants.
By Dr. Parva Chhantyal
5 May 2021
Nanoparticles present a significant threat to human health across the globe as they contribute to air pollution and enter our lungs as we breathe.
By Sarah Moore
5 May 2021
Izon Science, a leading nanotechnology manufacturer, has announced its latest nanoparticle measurement system, the Exoid. The Exoid device measures complex nanoparticle information using next-generation Tunable Resistive Pulse Sensing (TRPS) technology.
Scientists at Oxford University have developed a new process based on nanotechnology to simplify and reduce the cost of testing water for chemical pollution and toxicity levels.