Scientists at Rice University have found a simple way to create basic elements for aircraft, flat-screen TVs, electronics and other products that incorporate sheets of tough, electrically conductive material.
Nanomaterials
Apr 15, 2009
4
0
The discovery of a dark ribbon of weak hydrogen ion emissions that encircles Jupiter has overturned previous thinking about the giant planet's magnetic equator.
Space Exploration
Jul 23, 2018
5
126
Graphene ribbons that are only a few atoms wide, so-called graphene nanoribbons, have special electrical properties that make them promising candidates for the nanoelectronics of the future. While graphene, a one-dimensional ...
Nanomaterials
Nov 30, 2017
0
4
A team of physicists and chemists has produced the first porous graphene ribbons in which specific carbon atoms in the crystal lattice are replaced with nitrogen atoms. These ribbons have semiconducting properties that make ...
Nanophysics
Jul 8, 2020
0
115
Using graphene ribbons of unimaginably small widths – just several atoms across – a group of researchers at the University of Wisconsin-Milwaukee (UWM) has found a novel way to "tune" the wonder material, causing the ...
Nanomaterials
Jul 3, 2014
0
0
Colonies of social insects are capable of self-organizing and accomplishing complex tasks through individual interactions. For example, to march across large gaps, ants grip the bodies of each other, forming a living bridge ...
Nanomaterials
May 17, 2019
0
1926
(PhysOrg.com) -- Electronic components based on graphene could render our current silicon-based electronics obsolete. Graphene, a more recently discovered form of carbon, consists of two-dimensional sheets of aromatic six-membered ...
Nanomaterials
Feb 8, 2011
22
0
New research at Rice University shows how water makes it practical to form long graphene nanoribbons less than 10 nanometers wide.
Nanophysics
Jul 30, 2013
1
0
(Phys.org)—A pair of researchers with Trinity College in Ireland has found that graphene sheets are capable of spontaneous tearing when heated, which results in peeling and the creation of ribbons. In their paper published ...
Researchers at Aalto University have succeeded in experimentally realizing metallic graphene nanoribbons (GNRs) that are only 5 carbon atoms wide. In their article published in Nature Communications, the research team demonstrated ...
Nanophysics
Dec 16, 2015
0
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