Reduced Graphene Oxide Nanopowder (C, Purity: 99.99%)

Reduced Graphene Oxide Nanopowder for Biomedical Application

Product: Reduced Graphene Oxide Nanopowder (C, Purity: 99.99%)

Quality Control: Each lot of NANOSHEL Reduced Graphene Oxide Nanopowder was tested successfully.

SEM Graphene

SEM – Redused Graphene Oxide Nanopowder

TEM Redused Graphene

TEM – Redused Graphene Oxide Nanopowder

Product Name Reduced Graphene Oxide Nanopowder
Product Code NS6130-12-000413
Purity 99.99% Confirm
Reduction method Chemically reduced Confirm
Sheet dimension Variable Confirm
Color Black Confirm
Odour Odourless Confirm
Solubility Insoluble Confirm
Density 1.91 g/cm³ Confirm
BET Surface Area 422.69 – 499.85 m2/g Confirm
Concentrations <0.1mg/mL Confirm
Humidity (Karl Fisher) 3.7 – 4.2% Confirm
Electrical conductivity 666,7 S/m (*) Confirm
Form Powder Confirm
Dispersibility It can be dispersed at low in NMP, DMSO, DMF
Main Inspect Verifier Manager QC

Reduced Graphene Oxide Elemental Analysis

C 77 – 87 %
H 0 – 1 %
N 0 – 1 %
S 0
O 13 – 22 %

Experts Review:

Miller-(Christopher)-345x239Dr. Baron Augustin, Ph.D (TUM)(Technical University of Munich, Germany)
Graphene is an atomic-Scale honeycomb Lattice made of Carbon atoms. Graphene is undoubtedly emerging as one of the most promising nanomaterials because of its unique combination of novel electronic, optical and mechanical  properties which opens a way for its exploitation in a wide spectrum of applications ranging from electronics to optics,  photonics, composite materials, energy generation, sensors, and biodevices.


images (33)

Dr. Darren Chandler, Ph.D(Manchester Metropolitan University, U.K)
Graphene remains capable of conducting electricity even at the limit of nominally zero carrier concentration because the electrons don’t seem to slow down or localize. The electrons moving around carbon atoms interact with the periodic potential of graphene’s honeycomb lattice, which gives rise to new quasi particles that have lost their mass, or rest mass. Graphene never stops conducting and they travel far faster than electrons in other semiconductors.


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Dr. Ms. Cristiana Barzetti (University of Cagliari-Department of Chemical Engineering and Material Science, Italy)
The most common techniques available for the production of graphene includes: Chemical Vapour Deposition, Micromechanical Cleavage, Epitaxial Growth on SiC Substrates, Chemical Reduction of Exfoliated Graphene Oxide, Liquid Phase Exfoliation of graphite and unzipping of Carbon Nanotubes.


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Dr. Jang Huang, Ph.D (Shandong Science and Technology University, China)
Graphene based nanomaterials have many promising applications in numerous areas: Graphene for energy applications: improves both energy capacity and charge rate in rechargeable batteries, promising approach for making solar cells, promising substrates for catalytic systems, Sensor applications, In flexible, stretchable and foldable electronics,  nanoelectronic applicants, photodetectors, Coatings, drug delivery, bio-imaging, Tissue engineering etc.


images (21)Dr. Mark Brown (Georgia Institute of Technology in Atlanta,USA)
Graphene appears to be most effective material for electromagnetic interference (EMI) shielding. Graphene conducts heat better than any other known material. Graphene is a disruptive technology, one that could open up new markets and even replace excisting technologies or materials.


Reduced Graphene Oxide Nanopowder

Reduced Graphene Oxide Nanopowder


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