€180.00

Basic pH Graphene Oxide Water Dispersion (0.4 wt% Concentration)

If you are developing a commercial application or wish to purchase a larger amount please contact: sales@kivoro.com

 

Our graphene oxide is noted for its mechanical and thermal properties. The raw material - graphite - is chemically processed to obtain monolayer flakes of graphene oxide.

Properties

  • · Form: Dispersion of graphene oxide sheets
  • · Particle Size: < 10μm
  • · Color: Yellow-brown
  • · Odor: Odorless
  • · Dispersibility: Polar solvents
  • · Solvent: Water
  • · pH: 8-10
  • · Concentration: 0.4 wt%
  • · Monolayer content (measured in 0.05 wt%): >95% (*)
  • · The Graphene Oxide weight content is guaranteed
  • · The dispersion volume is approximated
(*) 0.4% wt% concentration tends to agglomerate the GO flakes and dilution followed by slight sonication is required in order to obtain a higher percentage of monolayer flakes.

Elemental Analysis

  • · Carbon: 41 – 42%
  • · Hydrogen: 2 – 3%
  • · Nitrogen: 0%
  • · Sulfur: 0 – 1%
  • · Oxygen: 54 – 55%

Quality control

Our Graphene Oxide is subjected to a rigorous QC in order to ensure a high quality and reproducibility.

  • · Amount of residue on evaporation
  • · pH control
  • · Elemental Analysis

If your application requires more specific quality control, please do not hesitate to contact us.

Applications

Graphene/polymer composite materials, Batteries, Biomedical, Solar cells, Supercapacitors, Support for metallic catalysts, Low permeability materials, Biosensors, Multifunctional materials, Graphene research

Publications

“High‐Performance Graphene‐Based Cementitious Composites”
Adv. Sci. 2019, 1801195. DOI:  10.1002/advs.201801195

“Graphene oxide-carbon nanotubes aerogels with high sulfur loadings suitable as binder-free cathodes for high performance lithium sulfur batteries”
Journal of Power Sources 412 (2019) 408–415. DOI: 10.1016/j.jpowsour.2018.11.077

“Preparation of fabric strain sensor based on graphene for human motion monitoring”
J Mater Sci 53, 9026–9033 (2018). DOI: 10.1007/s10853-018-2194-7

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