918032
Graphene oxide for bioconjugation
6-arm PEG amine functionalized
Synonym(s):
Bioconjugatable graphene oxide
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About This Item
NACRES:
NA.23
UNSPSC Code:
12352119
Product Name
Graphene oxide for bioconjugation, 6-arm PEG amine functionalized
form
dispersion in H2O
mol wt
PEG Mw 15,000 (6-arm PEG amine)
concentration
2.0 mg/mL
color
dark brown
pH
3-4
Quality Level
Related Categories
Application
Our bioconjugatable graphene oxide brings the advantages of two-dimensional materials to biotechnology. The fluorescence quenching property of graphene oxide has been used in many biosensor applications. Amine functionalization makes our graphene oxide easy to couple your protein, antibody, or other carboxylic acid containing target for use in biosensor applications based on fluorescence quenching. Additionally, graphene oxide has been used extensively in tissue engineering applications. PEG modification may even increase the biocompatibility of graphene oxide in vivo. Lastly, graphene oxide has been used in targeted drug delivery and in photothermal cancer therapy, and our bioconjugatable graphene oxide makes it easier to add your targeting ligands.
General description
Graphene oxide is a hydrophilic two-dimensional (2D) material that is dispersible in water. This graphene oxide product contains covalently bound 6-arm PEG (15K) amine linkers that can be used for bioconjugation with carboxylic acid containing biomolecules. The 6-arm PEG amine functionality increases the number of binding sites for bioconjugation versus graphene oxide, and the amine groups offer popular and established coupling chemistry.
Storage Class
12 - Non Combustible Liquids
wgk
WGK 2
flash_point_f
Not applicable
flash_point_c
Not applicable
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Graphene-based materials for tissue engineering.
Shin S R, et al
Advanced Drug Delivery Reviews, 105, 255-255 (2016)
Biosensors based on graphene oxide and its biomedical application.
Lee J, et al.
Advanced Drug Delivery Reviews, 105, 275-275 (2016)
Graphene-based nanomaterials and their potentials in advanced drug delivery and cancer therapy.
Liu J, et al.
Journal of Controlled Release : Official Journal of the Controlled Release Society, 286, 64-73 (2018)
Zahra Abdollahi et al.
Journal of biotechnology, 298, 88-97 (2019-04-16)
Polymer-coated nanocarriers play an important role in targeted drug delivery. The use of polymers such as polyethylene glycol increases stability, biocompatibility, and blood circulation time of the drug, and may consequently improve the success of drug delivery. In the present
Graphene Oxide as an Optical Biosensing Platform.
Narvaez M, et al.
Advanced Mat., 24, 3298-3298 (2012)
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