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Aminated Graphene Octadecylamine covalently linked

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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

  1. 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.
  2. Gago, Israel, et al. “Graphene-Based nanocomposite for body armour: tensile, impact and bulletproof properties.” Nov. 2017.