Epitaxial graphene on SiC {0001}: advances and perspectives
W Norimatsu, M Kusunoki - Physical Chemistry Chemical Physics, 2014 - pubs.rsc.org
We review here recent progress on epitaxial graphene grown on a SiC substrate. Epitaxial
graphene can be easily grown by heating the SiC single crystal in a high vacuum or in an …
graphene can be easily grown by heating the SiC single crystal in a high vacuum or in an …
Applications of graphene: an overview
EL Wolf - 2014 - Springer
Graphene, the leading example of a two-dimensional crystalline material, is exceptionally
conductive of electricity and heat even at 1 atom thickness, taken as 0.34 nm. This short …
conductive of electricity and heat even at 1 atom thickness, taken as 0.34 nm. This short …
Layer-resolved graphene transfer via engineered strain layers
The performance of optimized graphene devices is ultimately determined by the quality of
the graphene itself. Graphene grown on copper foils is often wrinkled, and the orientation of …
the graphene itself. Graphene grown on copper foils is often wrinkled, and the orientation of …
Comeback of epitaxial graphene for electronics: large-area growth of bilayer-free graphene on SiC
We present a new fabrication method for epitaxial graphene on SiC which enables the
growth of ultra-smooth defect-and bilayer-free graphene sheets with an unprecedented …
growth of ultra-smooth defect-and bilayer-free graphene sheets with an unprecedented …
A wide-bandgap metal–semiconductor–metal nanostructure made entirely from graphene
J Hicks, A Tejeda, A Taleb-Ibrahimi, MS Nevius… - Nature Physics, 2013 - nature.com
Present methods for producing semiconducting–metallic graphene networks suffer from
stringent lithographic demands, process-induced disorder in the graphene, and scalability …
stringent lithographic demands, process-induced disorder in the graphene, and scalability …
Visualizing band offsets and edge states in bilayer–monolayer transition metal dichalcogenides lateral heterojunction
Semiconductor heterostructures are fundamental building blocks for many important device
applications. The emergence of two-dimensional semiconductors opens up a new realm for …
applications. The emergence of two-dimensional semiconductors opens up a new realm for …
Doping of graphene by low-energy ion beam implantation: structural, electronic, and transport properties
We investigate the structural, electronic, and transport properties of substitutional defects in
SiC-graphene by means of scanning tunneling microscopy and magnetotransport …
SiC-graphene by means of scanning tunneling microscopy and magnetotransport …
Graphene electronics: Materials, devices, and circuits
Graphene is a 2-D atomic layer of carbon atoms with unique electronic transport properties
such as a high Fermi velocity, an outstanding carrier mobility, and a high carrier saturation …
such as a high Fermi velocity, an outstanding carrier mobility, and a high carrier saturation …
Imaging the breaking of electrostatic dams in graphene for ballistic and viscous fluids
The charge carriers in a material can, under special circumstances, behave as a viscous
fluid. In this work, we investigated such behavior by using scanning tunneling potentiometry …
fluid. In this work, we investigated such behavior by using scanning tunneling potentiometry …
Spatially resolved mapping of electrical conductivity across individual domain (grain) boundaries in graphene
KW Clark, XG Zhang, IV Vlassiouk, G He… - ACS …, 2013 - ACS Publications
All large-scale graphene films contain extended topological defects dividing graphene into
domains or grains. Here, we spatially map electronic transport near specific domain and …
domains or grains. Here, we spatially map electronic transport near specific domain and …