Interference effect on Raman spectrum of graphene on SiO2/Si
نویسندگان
چکیده
The intensity ratio between two major Raman bands in graphene is one of the most important information for physics of graphene and has been believed to represent various intrinsic properties of graphene without critical assessment of extrinsic effects. We report a micro Raman spectroscopy study on the Raman intensity ratio of the 2D band to the G Raman band of graphene varying the thickness of dielectric layers (SiO2) underneath it. The ratio is shown to change by almost 370% when the thickness is varied by 60%. The large variation in the ratio is well explained by theoretical calculations considering multiple Raman scattering events at the interfaces. Our analysis shows that the interference effect is critical in extracting the intrinsic 2D to G intensity ratio and therefore must be taken into account in extracting various physical properties of graphene from Raman measurements. PACS Numbers: 78.30.-j; 78.66.-w; 63.22.Np
منابع مشابه
Spectroscopic Raman Nanometrology of Graphene and Graphene Multilayers on Arbitrary Substrates
Raman spectroscopy is known to be an effective tool for characterization of graphene and graphene multilayers on the standard Si/SiO2 (300 nm) substrates, which allows one to determine non-destructively the number of the graphene layers and assess their quality. The Raman phonon peaks undergo modification when graphene is placed on other substrates due to changes in the nature and density of th...
متن کاملRaman nanometrology of graphene: Temperature and substrate effects
Graphene has been a subject of intense interest because of its unique physical properties. Raman spectroscopy became a valuable tool for determining the number of graphene layers and assessing their quality. Here we review our recent results on the effects of substrates and temperatures on Raman signatures of graphene. Specifically, we considered graphene on GaAs, glass, sapphire, standard Si/S...
متن کاملCombination of surface- and interference-enhanced Raman scattering by CuS nanocrystals on nanopatterned Au structures
We present the results of a Raman study of optical phonons in CuS nanocrystals (NCs) with a low areal density fabricated through the Langmuir-Blodgett technology on nanopatterned Au nanocluster arrays using a combination of surface- and interference-enhanced Raman scattering (SERS and IERS, respectively). Micro-Raman spectra of one monolayer of CuS NCs deposited on a bare Si substrate reveal on...
متن کاملTransfer free graphene growth on SiO2 substrate at 250 °C
Low-temperature growth, as well as the transfer free growth on substrates, is the major concern of graphene research for its practical applications. Here we propose a simple method to achieve the transfer free graphene growth on SiO2 covered Si (SiO2/Si) substrate at 250 °C based on a solid-liquid-solid reaction. The key to this approach is the catalyst metal, which is not popular for graphene ...
متن کاملThe effect of doping Graphene Quantum Dots with K, B, N, and Cl on its emitted spectrum
In this work, the effect of doping Graphene Quantum Dots (GQDs) on their emission spectra has been studied. First, graphene has been deposited on SiC substrate by using sublimation method. Second, doped-GQDs have been distributed on the surface of graphene via drop casting. The structure of the samples have been studied and characterized by X-ray diffraction (XRD), Scanning Electron Microscopy ...
متن کامل