Role of Hydrogen in Chemical Vapor Deposition Growth of Large Single-Crystal Graphene

Citations Over TimeTop 1% of 2011 papers

Abstract

We show that graphene chemical vapor deposition growth on copper foil using methane as a carbon source is strongly affected by hydrogen, which appears to serve a dual role: an activator of the surface bound carbon that is necessary for monolayer growth and an etching reagent that controls the size and morphology of the graphene domains. The resulting growth rate for a fixed methane partial pressure has a maximum at hydrogen partial pressures 200-400 times that of methane. The morphology and size of the graphene domains, as well as the number of layers, change with hydrogen pressure from irregularly shaped incomplete bilayers to well-defined perfect single layer hexagons. Raman spectra suggest the zigzag termination in the hexagons as more stable than the armchair edges.

Related Papers

• → Stabilization of Langmuir monolayer of hydrophobic thiocholesterol molecules(2008)8 cited
• A natural advantage? Using mined graphite to make graphene(2013)
• Synthesis and Characterisation of Graphene Single Sheets(2012)
• Unique synthesis of graphene-based materials for clean energy and biological sensing applications(2012)
• → Orthotropic friction at the edges and interior of graphene and graphene fluoride and frictional anisotropy of graphene at the nanoscale(2021)