News - 19 Mar 2008
Researchers at the National Institute of Standards and Technology (NIST) have set the stage for building the ¡°evolutionary link¡± between the microelectronics of today built from semiconductor...
Article - 12 Feb 2001
Boron nitride comes in two forms, hexagonal and cubic boron nitrides. Both are syntheised in different ways. Hexagonal boron nitride is similar in many ways to graphite, while cubic boron nitride...
Article - 14 Mar 2017
Since the development of graphene and the discovery that its electrons act as Dirac fermions, many other 2D materials have been investigated.
News - 1 Aug 2008
Physicists at the University of Pennsylvania have characterized an aspect of graphene film behavior by measuring the way it conducts electricity on a substrate. This milestone advances the potential...
Article - 26 Aug 2004
Toyota Central R&D Labs have developed ultrahigh-quality silicon carbide single crystals which has fewer dislocation density by two to three orders magnitude than the conventional materials. Posted...
Article - 16 Apr 2018
Whilst many people know about materials such as graphene and hexagonal boron nitride, bismuthene is a lesser known 2D material. In this article, we look at what bismuthene is, it’s properties, and the...
News - 11 Apr 2010
The single-atom thick material graphene maintains its high thermal conductivity when supported by a substrate, a critical step to advancing the material from a laboratory phenomenon to a useful...
Article - 19 Dec 2007
Super-flexible wires, electrodes and interconnections were developed using conductive adhesives containing Ag particles dispersed in a silicone-based binder. These expected to be a key technology for...
News - 1 Aug 2014
Global flexible electronics market is expected to reach $13.23 Billion by 2020 at an estimated CAGR of 21.73% with the number of applications using printing processes for flexible electronics forecast...
News - 12 Jan 2011
Researchers at North Carolina State University have created the first coils of silicon nanowire on a substrate that can be stretched to more than double their original length, moving us closer to...