Preparation and Characterization of Graphene Nanoplatelets from Natural Graphite via Intercalation and Exfoliation with Tetraalkylammoniumbromide

Abstract: A new method for the preparation of graphene nanoplatelets (GNP) from graphite intercalation compounds (GICs) was investigated. Donor-type ternary GICs of natural graphites, lithium ions and tetrahydrofurane (NG-Li-THF) were synthesized via a solution process, with the lithium ions in the GICs then exchanged with different tetra alkyl ammonium cations to expand the interlayer distance (d-spacing) of these GICs. Microwave irradiation of these GICs resulted in the exfoliation of GICs, forming so-called 'worm-lik… Show more

“…GNPs were synthesized from the natural graphite by previously reported ion-exchanged induced intercalation and exfoliation method [35]. GO was synthesized from a synthetic graphite using modified Hummers method [36,37].…”

Effects of functional groups on the graphene sheet for improving the thermomechanical properties of polyurethane nanocomposites

“…GNPs were synthesized from the natural graphite by previously reported ion-exchanged induced intercalation and exfoliation method [35]. GO was synthesized from a synthetic graphite using modified Hummers method [36,37].…”

Effects of functional groups on the graphene sheet for improving the thermomechanical properties of polyurethane nanocomposites

“…Common techniques to produce GNPs include chemical reduction of homogeneous colloidal suspension of single layered graphene oxide [18] and by exfoliation of natural graphite flakes by oxidation reaction [19]. Some of researchers prepared GNPs from natural graphite via exfoliation and intercaltion with tetra alkyl ammonium bromide [20]. Others such as Cameron Derry et.…”

Melt processing and characterisation of polyamide 6/graphene nanoplatelet composites

“…[1][2][3][4] Compared to single-layer graphene, GNPs can be produced more easily and starting from natural graphite precursors, yielding large quantities of GNPs at a lower cost. [5][6][7] Graphene and GNP polymer nanocomposites have attracted much scientific and industrial attention because their physico-mechanical properties can be significantly enhanced with the addition of relatively small quantities of graphene. [8][9][10][11] In particular, the thermal conductivity of polymers can be greatly increased by the addition of GNPs because the two-dimensional planar structure of GNPs can reduce the phonon scattering at the polymer-nanofiller interface compared to one-dimensional additives (e.g.…”

Effect of two types of graphene nanoplatelets on the physico–mechanical properties of linear low–density polyethylene composites