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773719 Aldrich

Monolayer graphene film, 1 cm x 1 cm on quartz

Synonym: Graphene/Quartz

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Properties

Related Categories Carbon Nanomaterials, Graphene Films, Graphene and Graphene Oxide, Materials Science, Nanomaterials More...
form   film
resistance   600 Ω/sq
L × W × thickness   1 cm × 1 cm × (theoretical) 0.345 nm, monolayer graphene film
  1.25 cm × 1.25 cm × 525 μm, quartz substrate

Description

Application

Webinar: Graphene-Based Nanomaterials for Versatile Biosensors

Graphene may be extensively incorporated in several applications, such as; nanoelectronics, fuel cells, solar cell, photovoltaic devices, in biosensing, optical biosensors, MEMS, NEMS, field effect transistors (FETs), chemical sensors, nanocarriers in biosensing assays., 4

General description

Graphene is a unique one atom thick, two dimensional allotrope of carbon. Among all the synthesis technique, chemical vapor deposition of graphene on various substrates is the most promising route for the large scale production of good quality graphene. Graphene deposited on dielectric surface may exhibit better performance in graphene based FETs. Graphene deposited on quartz may be deposited by direct chemical vapor deposition via a sacrificial copper film.

Growth Method: CVD synthesis
Transfer Method: Clean transfer method
Quality Control: Optical Microscopy & Raman checked
Size: 1 cm x 1 cm
Appearance (Color): Transparent
Transparency: >97%
Appearance (Form): Film
Coverage: >95%
Number of graphene layers: 1
Thickness (theoretical): 0.345 nm
FET Electron Mobility on Al2O3: 2; 000 cm2/V·s
FET Electron Mobility on SiO2/Si (expected): 4; 000 cm2/V·s
Sheet Resistance: 600 Ohms/sq.
Grain size: Up to 10 μm

Substrate Quartz

Size: 1.25 cm x 1.25 cm
Flatness: bow: 20μm; warp: 30μm
Roughness:6 angstroms (on the polished side)
Surface: Double side polished

Price and Availability


The Future of Bioimaging
Safety & Documentation

Safety Information

Symbol 
Signal word 
Warning
Hazard statements 
Precautionary statements 
RIDADR 
NONH for all modes of transport
WGK Germany 
3
Protocols & Articles

Articles

Graphene Field Effect Transistors for Biological and Chemical Sensors

Victoria Tsai* and Bruce Willner Graphene Frontiers, Philadelphia, PA 19104, USA *Email: victoria@graphenefrontiers.com
Keywords: Adhesion, Chemical vapor deposition, Chromatin immunoprecipitation, Deposition, Drug discovery, Environmental, Evaporation, Ion-exchange chromatography, Nanomaterials, Nanotubes, Semiconductor, Separation

Graphene Nanoribbons: Production and Applications

Ayrat M. Dimiev1 and James M. Tour2 1EMD Performance Materials Corp., 70 Meister Ave, Somerville, NJ 08876 USA 2Departments of Chemistry, Materials Science and NanoEngineering, and Computer Science, ...
Keywords: Alkylations, Cyclizations, Mass spectrometry, Materials Science, Nanotubes, Organic synthesis, Polymerization reactions, Raman spectroscopy, Separation, Solvents, Sonication, Spectroscopy

Graphene and Other 2D Crystals for Rechargeable Batteries

Francesco Bonaccorso,* Vittorio Pellegrini Istituto Italiano di Tecnologia, Graphene Labs, 16163, Genova, Italy *Email: francesco.bonaccorso@iit.it
Francesco Bonaccorso, Vittorio Pellegrini
Material Matters, 2016, 11.1, 15
Keywords: Adhesion, Adsorption, Automotive, Chemical vapor deposition, Degradations, Deposition, Diffusion, Electronics, Environmental, Lithiations, Nanomaterials, Nucleic acid annealing, Oxidations, Reductions, Renewable energy, Separation, Solvents, Sonication

Graphene in Biotechnology

Alba Centeno and Amaia Zurutuza Elorza* Graphenea S.A. Tolosa Hiribidea, 76, E-20018 Donostia - San Sebastian, Spain *Email: a.zurutuza@graphenea.com
Keywords: Adsorption, Angiogenesis, Bacterial conjugations, Building blocks, Cancer, Chemical vapor deposition, Degradations, Deposition, Diffusion, Diseases, Electronics, Gene expression, Growth factors, Immunostaining, Infrared spectroscopy, Ligands, Magnetic resonance imaging, Microscopy, Nanoelectronics, Nanomaterials, Nanotubes, Neuroscience, Nucleic acid hybridization, Positron Emission Tomography, Scanning electron microscopy, Transfection, Transmission electron microscopy

Graphene-Based Transparent Conductive Electrodes

Kehan Yu1 and Junhong Chen2* 1Department of Chemical Engineering Case Western Reserve University Cleveland, Ohio 44106 2Department of Mechanical Engineering University of Wisconsin-Milwaukee, Milwauk...
Keywords: Catalysis, Centrifugation, Chemical vapor deposition, Deposition, Electronics, Microelectronics, Nanomaterials, Nanotubes, Oxidations, PAGE, Positron Emission Tomography, Purification, Raman spectroscopy, Reductions, Semiconductor, Solar cells, Solvents, Sonication, Spectroscopy

Molybdenum Disulfide: Understanding Hydrogen Evolution Catalysis

Linyou Cao Department of Materials Science and Engineering Department of Physics North Carolina State University, Raleigh, NC, USA Email: lcao2@ncsu.edu
Keywords: Adsorption, Bacterial conjugations, Catalysis, Chemical industry, Chemical vapor deposition, Degradations, Deposition, Electrochemical reactions, Environmental, Indicators, Industries, Infrared spectroscopy, Materials Science, Nanotubes, Oxidations, Recombination, Renewable energy

Recent Developments in Silicon Anode Materials for High Performance Lithium-Ion Batteries

Xuefeng Song,1* Xiaobing Wang,2 Zhuang Sun,1 Peng Zhang,1 and Lian Gao1 1State Key Laboratory for Metallic Matrix Composite Materials, School of Materials Science and Engineering, Shanghai Jiao Tong ...
Keywords: Automotive, Deposition, Diffusion, Electrochemical reactions, Environmental, Lithiations, Materials Science, Microscopy, Nanomaterials, Nanotubes, Polymerization reactions, Reductions, Scanning electron microscopy, Transmission electron microscopy

Related Content

Graphene and New Monoatomic Materials: Using 2-Dimensional Nanosheets in a 3-Dimensional World Webinar

Chemists have been able to manipulate graphene by enhancing its processibility and versatility. It is possible to tailor graphene, using covalent or supramolecular chemistry, into a variety of forms ...
Keywords: Catalysis, Crystallization, Electronics, Nanomaterials, Nanotechnology, Organic electronics, Polymerization reactions, Semiconductor

Probing Dirac Electron Physics in Graphitic Materials Webinar

Electrons in monolayer graphene are described by massless Dirac electrons, which exhibit unique quantum phenomena due to the pseudospin and Berry phase of the massless electron. In this talk, Dr. Fen...
Keywords: Electronics, Nanomaterials, Nanotubes

Peer-Reviewed Papers
15

References

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