Graphene is considered the material of the future due to its extraordinary optical and
electronic mechanical properties, especially because it conducts electrons very quickly.
Not exact matches
While Wang has already developed self - healing versions of lithium - ion batteries, artificial muscles for use in the robotics industry,
electronic skins and soon a touch panel, he notes that his polymer has limited
mechanical properties, lacking the necessary strength and impact resistance required by most consumer devices.
Based on computational studies, compared to conventional carbon nanotubes, the nanothreads produced by this method may have outstanding
mechanical and
electronic properties.
They then selected the 258 most promising materials, categorizing them according to their magnetic,
electronic,
mechanical, thermal and topological
properties.
Ongoing research suggests that water interacting with graphene has
properties as exceptional and potentially transformative as graphene's
electronic and
mechanical properties.
These atom - thin sheets — including the famed super material graphene — feature exceptional and untapped
mechanical and
electronic properties.
Published by the Condensed Matter research group at the Nordic Institute for Theoretical Physics (NORDITA) at KTH Royal Institute of Technology in Sweden, the Organic Materials Database is intended as a data mining resource for research into the electric and magnetic
properties of crystals, which are primarily defined by their
electronic band structure — an energy spectrum of electrons motion which stem from their quantum -
mechanical properties.
«Researchers have long studied ways to modify the molecular structure of polymers to engineer their
mechanical, optical or
electronic properties, but very few studies have examined molecular design approaches to engineer their thermal
properties,» Pipe said.
This year it is held in Sweden with focus on
electronic applications of the two - dimensional material with the extraordinary electrical, optical,
mechanical and thermal
properties that make it a more efficient choice than silicon in
electronic applications.
Someday, superconductors could make for incredibly efficient power lines and
electronic devices, but the development of such practical, room - temperature versions relies on a better understanding of the quantum
mechanical properties of their far colder cousins.
Electronic skin, known as e-skin, is a thin, translucent material that can mimic the function and
mechanical properties of human skin.
At the 2013 Conference the winner of the 2011 Feynman Prize for Experimental work presents STM studies showing how the manipulation of single molecules on a surface can yield insights to their
mechanical,
electronic, and optical
properties, and be used in a controlled way to build pre-defined molecular architectures.
However defects within the ribbon can have significant effects on
electronic, as well as thermal and
mechanical properties.
His findings in dislocation theory, modeling of
mechanical properties electronic structures of metals, especially the localized and delocalized states in diluted alloys, spin glasses, surface and cluster
properties are unprecedented.