Graphene, a lightweight, thin, flexible material, can be
Isolated for the first time 15 years ago by a physics professor at the University of Manchester in England, it is so thin that it is considered two-dimensional and thought to be the strongest material on the planet.
Vikas Berry, associate professor and department head of chemical engineering, and colleagues used a chemical process to attach nanomaterials on graphene without changing the properties and the arrangement of the carbon atoms in graphene. By doing so, the UIC scientists retained graphene's electron-mobility, which is essential in high-speed electronics.
The addition of the plasmonic silver nanoparticles to graphene also increased the material's ability to boost the efficiency of graphene-based solar cells by 11 fold, Berry said.
The research, funded by the National Science Foundation (CMMI-1030963), has been published in the journal Nano Letters.
Instead of adding molecules to the individual carbon atoms of graphene, Berry's new method adds metal atoms, such as chromium or molybdenum, to the six atoms of a benzoid ring. Unlike carbon-centered bonds, this bond is delocalized, which keeps the carbon atoms' arrangement undistorted and planar, so that the graphene retains its unique properties of electrical conduction.
Read more at: https://phys.org/news/2017-06-chemical-method-revolutionize-graphene.html#jCp
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