Monolayer Graphene on PET (10 mm x 10 mm) - Pack 4 units
Monolayer Graphene on PET (10 mm x 10 mm) - Pack 4 units - Processed in Clean Room Class 1000
Grown by CVD on copper foil and transferred to polyethylene terephthalate polymer (PET) using wet transfer process.
- · Transparency: > 97%
- · Coverage: > 95%
- · Thickness (theoretical): 0.345 nm
- · FET Electron Mobility on Al2O3: 2000 cm2/Vs
- · Hall Electron Mobility on SiO2/Si: 2000-3500 cm2/Vs
- · Sheet Resistance: 580±50 Ohms/sq (1cm x 1cm)
- · Grain size: Up to 10 μm
- · Thickness: 250 µm
All our samples are subjected to a rigorous QC in order to ensure a high quality and reproducibility of the graphene.
- · Raman Spectroscopy: I(G)/I(2D)<0.5; I(D)/I(G)<0.05
- · Optical Microscopy inspection of each individual sample to ensure good transfer quality and purity
If your application requires more specific controls (AFM, SEM...) please do not hesitate to contact us.
Flexible displays, ITO replacement, Graphene research, OLEDs
“Flexible solid state lithium batteries based on graphene inks”
J. Mater. Chem., 2011,21, 9762-9767 doi: 10.1039/C1JM10826C
“Enabling Graphene Oxide Nanosheets as Water Separation Membranes”
Environ. Sci. Technol., 2013, 47 (8), pp 3715-3723; doi: 10.1021/es40057g
“Graphene Oxide for effective radionuclide removal”
Phys. Chem. Chem. Phys., 2013, 15, 2321-2327; doi: 10.1039/C2CP44593J
Frequently Asked Questions
A: It has to be done under dry conditions. When using wafers such as Si or quartz a diamond pen can be used to cleave it. In order to protect the graphene film from debris, we recommend doing it with the protective PMMA layer on top of graphene. In this case, we can provide you the sample with the PMMA on top.
When using thin substrates such as PEN or PEN you can easily cut them using scissors.
A: In principle, additional cleaning is not needed and you can use our graphene directly. However, thermal annealing can be applied, typically at 250-400C under inert atmosphere in order to have a cleaner graphene and to reduce absorbents on the graphene surface.
A: Our graphene on SiO2 is p-doped, with a charge carrier density of around 1013 cm-2. This intrinsic doping can be reduced by at least one order of magnitude by thermal treatments, which lower the Dirac voltage down to 40-80 V. Another alternative is using a passivation layer on top of the graphene, which prevents the presence of water between the substrate and the graphene film.
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