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797774 Aldrich

Graphene nanoribbons

  • Linear Formula C

  • Molecular Weight 12.01

  •  EC Number 231-153-3

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Properties

Related Categories 3D Printing Materials for Research and Development, Carbon Nanomaterials, Graphene Films, Graphene and Graphene Oxide, Materials Science,
assay   ≥90.0% carbon basis (TGA)
L × W   2-15 μm × 40-250 nm
surface area   BET surf. area 48-58 m2/g
density   2.2745 g/mL (He gas method)
bulk density   0.0970 g/mL (Mercury Porosimetry)

Description

Analysis Note

Raman Spectroscopic Data:
ID/IG = 0.65±0.07
I2D/IG = 0.74±0.03
2D FWHM = 63 cm-1

General description

Produced by unzipping multi-walled carbon nanotubes by potassium intercalation.

Packaging

500 mg in glass bottle

Legal Information

Graphene Nanoribbon Composites and Methods of Making the Same, WO/2012/112435 A1.

Application

• Composites.
• Conductive inks.
• Electrodes for LiB.
• Energy storage & harvesting applications.
• Bio-medical applications.
• Preferred dispersing organic solvents: pyrrolidones and chlorinated solvents.
• Less preferred dispersing organic solvents: cyclohexanone and γ-butyrolactone.
• Aqueous dispersions are possible at 0.1mg/mL with triton-X-100, sodium cholate and deoxycholate and cellulose-based surfactants.

Price and Availability


3D Printing

The Future of Bioimaging
Safety & Documentation

Safety Information

RIDADR 
NONH for all modes of transport
WGK Germany 
3

Documents

Certificate of Analysis

Protocols & Articles

Articles

3D Printing Graphene Ink: Creating Electronic and Biomedical Structures and Devices

Adam E. Jakus, Ph.D.1,3*, Ramille N. Shah, Ph.D.1,2,3 1Materials Science and Engineering, McCormick School of Engineering, Northwestern University, Evanston, IL 60208 USA 2Comprehensive Transplant Ce...
Adam E. Jakus, Ph.D., Ramille N. Shah, Ph.D.
Material Matters, 2016, 11.2
Keywords: Biomaterials, Cancer, Deposition, Electronics, Evaporation, Gene expression, Nanotechnology, Solvents

3D Printing of Carbon Fiber-Reinforced Composites

3D printing is a type of additive manufacturing that can be used to rapidly fabricate components with highly customizable geometries, most typically using a layer-by-layer fabrication process. 3D pri...
Zhenyu Bo* (Ph.D Candidate at Northwestern University) and Jia Choi*, PhD, Product Manager


*Materials Science Product Management Team, MilliporeSigma, Milwaukee, WI.
Keywords: Deposition, Nanomaterials, Nanotubes

Building and Engineering Micro/Nano Architectures of Single-Walled Carbon Nanotubes for Electronic Applications

1Department of Mechanical and Industrial Engineering, Northeastern University, Boston, MA 02115, USA 2Department of Physics, Northeastern University, Boston, MA 02115, USA 3Department of Mechanical E...
Ji Hao,1 Hyunyoung Jung,1 Younglae Kim,1 Bo Li,1,3 Swastik Kar,2 Yung Joon Jung1*
Material Matters, 2017, 12.1
Keywords: Chromatin immunoprecipitation, Environmental, Nanotubes, Redox Reactions, Reductions, transformation

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-Based Composites and their Unique Renewable Energy Applications

Wen Qian, Andrew Y. Wang* Ocean NanoTech, LLC, San Diego, CA 92126, USA *Email: awang@oceannanotech.com
Keywords: Catalysis, Nanotubes, Oxidations, Purification, Recombination, Reductions, Renewable energy, Semiconductor, Separation

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

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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