Natural materials have
extraordinary mechanical properties, which are based on sophisticated arrangements and combinations of multiple building blocks.
Not exact matches
Graphene is considered the material of the future due to its
extraordinary optical and electronic
mechanical properties, especially because it conducts electrons very quickly.
In recent years, carbon nanotubes have emerged as a promising material of electron field emitters, owing to their nano - scale needle shape and
extraordinary properties of chemical stability, thermal conductivity and
mechanical strength.
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.
The 2010 Nobel Prize in Physics was awarded for the discovery of graphene, an atomically - thin, two - dimensional carbon lattice with
extraordinary electrical, thermal and
mechanical properties.
In recent years, carbon nanotubes have emerged as a promising material of electron field emitters, owing to their nanoscale needle shape and
extraordinary properties of chemical stability, thermal conductivity, and
mechanical strength.
But development of those applications often require graphene materials to be as structurally perfect as possible in order to achieve
extraordinary electrical,
mechanical or thermal
properties.