Aminated Graphene Octadecylamine covalently linked
Reduced Graphene Oxide-NH-(CH2)17-CH3
Product Detail
CAS No.: 7782-42-5
New SKU: GNAMOD01
Old SKU: GnAm18a-0.5g
Reduced Graphene Oxide-NH-(CH2)17-CH3
FTIR Spectroscopy: Attenuated Total Reflectance (ATR)
Assignment (cm-1): 2915‚ 2846‚ 1538 and 1465.
SEM images for Reduced Graphene Oxide-NH-(CH2)17-CH3
XRD
XRD pattern of rGO and rGO-NH-(CH2)17-CH3. The peak at 2θ = 5.1º is related to the longer interplanar distance of graphene due to octadecylamine chains.
XPS
Binding energies (eV) and deconvoluted peaks (%) for C1s‚ O1s and N core levels.
Elemental Analysis
Solid-state 13C NMR
Distribution of rGO-NH-(CH2)17-CH3 (left) and graphene oxide (right) in a mixture of water (up) and dichloromethane (down) showing hydrophobicity of rGO-NH-(CH2)17-CH3.
Amount of ODA
In order to estimate the amount of octadecylamine chains in rGO-NH-(CH2)17-CH3 a reaction with 4-bromobenzyl chloride was performed and the Br amount was quantified by the Schöniger flask test. The value obtained corresponds to 0.1 mmol of octadecylamine/g.
Conductivity
Conductivity of pressed pellets of rGO-NH-(CH2)17-CH3 is 6.36 S/m.
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FAQ
1. Is this product made from graphene or graphene oxide?
The aminated graphene octadecylamine covalently linked is made of graphene oxide.
Research Citations of ACS Material Products
- Nieto, Andy, et al. “Graphene reinforced metal and ceramic matrix composites: a review.” International Materials Reviews, vol. 62, no. 5, 2016, pp. 241–302., doi:10.1080/09506608.2016.1219481.
- Gago, Israel, et al. “Graphene-Based nanocomposite for body armour: tensile, impact and bulletproof properties.” Nov. 2017.