Graphene growth on Ge(100)/Si(100) substrates by CVD method

Citations Over TimeTop 10% of 2016 papers

Abstract

The successful integration of graphene into microelectronic devices is strongly dependent on the availability of direct deposition processes, which can provide uniform, large area and high quality graphene on nonmetallic substrates. As of today the dominant technology is based on Si and obtaining graphene with Si is treated as the most advantageous solution. However, the formation of carbide during the growth process makes manufacturing graphene on Si wafers extremely challenging. To overcome these difficulties and reach the set goals, we proposed growth of high quality graphene layers by the CVD method on Ge(100)/Si(100) wafers. In addition, a stochastic model was applied in order to describe the graphene growth process on the Ge(100)/Si(100) substrate and to determine the direction of further processes. As a result, high quality graphene was grown, which was proved by Raman spectroscopy results, showing uniform monolayer films with FWHM of the 2D band of 32 cm(-1).

Related Papers

• → Orthotropic friction at the edges and interior of graphene and graphene fluoride and frictional anisotropy of graphene at the nanoscale(2021)1 cited
• A natural advantage? Using mined graphite to make graphene(2013)
• Synthesis and Characterisation of Graphene Single Sheets(2012)
• Susquehanna Chorale Spring Concert "Roots and Wings"(2017)
• Unique synthesis of graphene-based materials for clean energy and biological sensing applications(2012)