Multilayer Graphene on 285 nm Silicon Dioxide Wafer: 5 pack

Multilayer Graphene on 285 nm Silicon Dioxide Wafer: 5 pack

Multilayer Graphene on 285 nm Silicon Dioxide Wafer: 5 pack


A 5 pack of multilayer CVD-grown graphene transferred onto 1cm x 1cm silicon wafers (p-doped) with a 285 nanometer silicon dioxide coating.



Properties of Graphene Film:


The thickness and quality of our graphene films is controlled by Raman Spectroscopy

The graphene coverage of this product is about 95%

The graphene film is continuous, with occasional holes and cracks

The graphene film is polycrystalline, i.e. it consists of grains with different crystallographic orientation

Sheet Resistance: 660-1,500 Ω/square


Optical Image of Multilayer Graphene on SiO2

Multilayer Graphene on Silicon-Dioxide

The graphene grown on nickel film is multilayer and is not uniform. It looks like a patchwork whereas the “patches” have different thicknesses. The thickness of the film varies from 1 to 7 layers, with an average of 4. The graphene layers within the same patch are aligned relative to each other (there is a graphitic AB-staking order). The size of the patches is about 3-10 microns.


Properties of Silicon/Silicon Dioxide Wafers:


Oxide Thickness: 285 nm

Color: Violet

Wafer thickness: 525 micron

Resistivity: 0.001-0.005 ohm-cm

Type/Dopant: P/Boron

Orientation: <100>

Front Surface: Polished

Back Surface: Etched




Graphene electronics and transistors

Conductive coatings

Aerospace industry applications

Support for metallic catalysts



Chemical and biosensors

Multifunctional materials based on graphene

Graphene Research


Our graphene films are manufactured using a PMMA assisted transfer method. Please refer to the references below for more details.



Academic References / Read More


Graphene Growth

Large-Area Synthesis of High-Quality and Uniform Graphene Films on Copper Foils Science 5 June 2009: Vol. 324. no. 5932, pp. 1312 - 1314

Graphene Transfer

Transfer of Large-Area Graphene Films for High-Performance Transparent Conductive Electrodes, Li, Nano Lett., 2009, 9 (12), pp 4359–4363

Toward Clean and Crackless Transfer of Graphene Liang,ACS Nano, 2011, 5 (11), pp 9144–9153


Customer feedback

Customer Reviews

There have been no reviews for this product.
Join Our Email List
For Email Marketing you can trust
Official PayPal Seal