Graphene monolayer film consists of an atomically-thin layer of carbon atoms that are arranged in a hexagonal honeycomb lattice. It was first isolated via mechanical exfoliation - the Scotch-tape method. Chemical vapour deposition (CVD) and epitaxial methods were later developed and commonly used as alternative methods for growing research-grade single, bilayer and few-layer graphene films.
General Information
| CAS number | 1034343-98-0 |
| Chemical formula | CxHy |
| Molecular weight | n.a. |
| Bandgap | n.a. |
| Synonyms | Graphene, Monolayer graphene film |
| Classification / Family | 2D semiconducting materials, Carbon nanomaterials, Nanomaterials, Polycyclic aromatic hydrocarbons, OLEDs, Organic photovoltaics (OPV), Organic electronics |
| Form | Film on substrate |
Product Details
| Substrate | SiO2/Si | PET | Copper Foil |
| Product code | M2155F11 | M2156F11 | M2157F50 |
| Size | 1 cm × 1 cm* | 1 cm × 1 cm* | 5 cm × 10 cm* |
| Growth Method | CVD synthesis | CVD synthesis | CVD synthesis |
| Appearance | Transparent | Transparent | Transparent |
| Purity | > 99% | > 99% | > 99% |
| Transparency | > 97% | > 97% | > 97% |
| Coverage | > 95% | > 95% | > 95% |
| Number of Layers | 1 | 1 | 1 |
| Sheet Resistance | 400 ± 50 Ohms/sq | 500 ± 50 Ohms/sq | 450±40 Ohms/sq |
| Transfer method | Wet chemical transfer | Wet chemical transfer | Directly grown |
| Substrate Thickness | 300 nm | 250 µm | n.a. |
| MSDS |  | | |
* Other sizes available: 1 cm × 2 cm, 2 cm × 2 cm, or custom-made sizes, please contact us for more details.
High-quality graphene monolayer film is available on three different substrates: SiO2/Si, PET (polyethylene terephthalate), and copper foil. Different sizes and substrate types of monolayer graphene films are also available via custom request (see list below).
- Glass (1 cm × 1 cm, 1 cm × 2 cm, 2 cm × 2 cm or custom-made sizes)
- Sapphire (1 cm × 1 cm, 1 cm × 2 cm, 2 cm × 2 cm or custom-made sizes)
- Nickel (1 cm × 1 cm, 1 cm × 2 cm, 2 cm × 2 cm or custom-made sizes)
- Silicon (1 cm × 1 cm, 1 cm × 2 cm, 2 cm × 2 cm or custom-made sizes)
- Quartz (1 cm × 1 cm, 1 cm × 2 cm, 2 cm × 2 cm or custom-made sizes)
Applications
With a unique combination of novel electronic, optical, and mechanical properties, graphene-based nanomaterials have applications in energy generation and storage. For example, they can applied in photovoltaic devices and batteries, sensors and flexible electronics, photodetectors, and biomedical applications (e.g. drug delivery, bio-imaging, and tissue engineering).
Synthesis
High-quality monolayer graphene films were first grown directly on copper foil via the chemical vapour deposition (CVD) method. The films were later transferred to the desired substrates via the wet chemical graphene-transfer process.
Usage
Monolayer graphene films are ready to use in various research purposes, such as microscopic analysis, photoluminescence and Raman spectroscopy studies. Graphene monolayer films can also be transferred to other substrates.
Pricing
| Substrate | Product code | Size | Quantity (EA) | Price |
| SiO2/Si | M2155F11 | 1 cm × 1 cm | 2 | £165.00 |
| SiO2/Si | M2155F11 | 1 cm × 1 cm | 4 | £254.00 |
| PET | M2156F11 | 1 cm × 1 cm | 2 | £165.00 |
| PET | M2156F11 | 1 cm × 1 cm | 4 | £254.00 |
| Cu Foil | M2157F50 | 5 cm × 10 cm | 1 | £397.00 |
Literature and Reviews
- Transfer of CVD-Grown Monolayer Graphene onto Arbitrary Substrates, J. Suk et al., ACS Nano, 5 (9), 6916–6924 (2011); DOI: 10.1021/nn201207c.
- Raman Studies of Monolayer Graphene: The Substrate Effect, Y. Wang et al., J. Phys. Chem. C, 112 (29), 10637–10640 (2008); DOI: 10.1021/jp8008404.
- Large-scale pattern growth of graphene films for stretchable transparent electrodes, K. Kim et al., Nature, 457, 706–710 (2009); doi: 10.1038/nature07719.
- Growth of Continuous Monolayer Graphene with Millimeter-sized Domains Using Industrially Safe Conditions, X. Wu et al., Sci. Rep., 6, 21152 (2016);
- Towards high quality CVD graphene growth and transfer, G. Deokar et al., Carbon, 89, 82-92 (2015); doi: 10.1016/j.carbon.2015.03.017.
To the best of our knowledge the technical information provided here is accurate. However, Ossila assume no liability for the accuracy of this information. The values provided here are typical at the time of manufacture and may vary over time and from batch to batch.
About Ossila Founded in 2009 by organic electronics research scientists, Ossila aims to provide the components, equipment, and materials to enable intelligent and efficient scientific research and discovery. Over a decade on, we're proud to supply our products to over 1000 different institutions in over 80 countries globally. With decades of academic and industrial experience in developing organic and thin-film LEDs, photovoltaics, and FETs, we know how long it takes to establish a reliable and efficient device fabrication and testing process. As such, we have developed coherent packages of products and services - enabling researchers to jump-start their organic electronics development program. The Ossila Guarantee Free Worldwide Shipping Eligible orders ship free to anywhere in the world Fast Secure Dispatch Rapid dispatch on in-stock items via secure tracked courier services Quality Assured Backed up by our free two year warranty on all equipment Clear Upfront Pricing Clear pricing in over 30 currencies with no hidden costs Large Order Discounts Save 8% on orders over $10,300.00 and 10% on orders over $12,900.00 Expert Support Our in-house scientists and engineers are always ready to help Trusted Worldwide Great products and service. Have already recommended to many people. Dr. Gregory Welch, University of Calgary Wonderful company with reasonably priced products and so customer-friendly! Shahriar Anwar, Arizona State University The Ossila Team Prof. David Lidzey - Chairman As professor of physics at the University of Sheffield, Prof. David Lidzey heads the university’s Electronic and Photonic Molecular Materials research group (EPMM). During his career, David has worked in both academic and technical environments, with his main areas of research including hybrid organic-inorganic semiconductor materials and devices, organic photonic devices and structures and solution processed photovoltaic devices. Throughout his academic career, he has authored over 220 peer-reviewed papers. Dr. James Kingsley - Managing Director James is a co-founder and managing director of Ossila. With a PhD in quantum mechanics/nanotech and over 12 years’ experience in organic electronics, his work on the fabrication throughput of organic photovoltaics led to the formation of Ossila and the establishment of a strong guiding ethos: to speed up the pace of scientific discovery. James is particularly interested in developing innovative equipment and improving the accessibility of new materials for solution-processable photovoltaics and hybrid organic-inorganic devices. Dr. Alastair Buckley - Technical Director Alastair is a lecturer of Physics at the University of Sheffield, specialising in organic electronics and photonics. He is also a member of the EPMM research group with a focus on understanding and applying the intrinsic advantages of functional organic materials to a range of optoelectronic devices. Alastair’s experience has not been gained solely in academia; he previously led the R&D team at MicroEmissive Displays and therefore has extensive technical experience in OLED displays. He is also the editor and contributor of "Organic Light-Emitting Diodes" by Elsevier. Our Research Scientists Our research scientists and product developers have significant experience in the synthesis and processing of materials and the fabrication and testing of devices. The vision behind Ossila is to share this experience with academic and industrial researchers alike, and to make their research more efficient. By providing products and services that take the hard work out of the device fabrication process, and the equipment to enable accurate, rapid testing, we can free scientists to focus on what they do best - science. Customer Care Team The customer care team is responsible for the customer journey at Ossila. From creating and providing quotes, through to procurement and inventory management, the customer care team is devoted to providing first class customer service. The general day to day responsibilities of a customer care team member involves processing customers orders and price queries, answering customer enquiries, arranging the shipment of parcels and notifying customers of updates on their orders. Collaborations and Partnerships Please contact the customer care team for all enquires, including technical questions about Ossila products or for advice on fabrication and measurement processes. Location and Facilities Ossila is based at the Solpro Business Park in Attercliffe, Sheffield. We operate a purpose-built synthetic chemistry and device testing laboratory on site, where all of our high-purity, batch-specific polymers and other formulations are made. This is complemented by a dedicated suite of thin-film and organic electronics testing and analysis tools within the device fabrication cluster housed in a class 1000 cleanroom in the EPSRC National Epitaxy Facility in Sheffield. All our electronic equipment is manufactured on-site.
