2018
DOI: 10.1016/j.carbon.2018.04.042
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Efficient exfoliation of graphite in chloroform with a pyrene-containing hyperbranched polyethylene as stabilizer to render pyrene-functionalized high-quality graphene

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Cited by 32 publications
(37 citation statements)
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“…Following the addition of a solvent to the intimately mixed graphite-cNDI, and before sonication, an opaque suspension was observed ( Figure 2b and 2c) an indication of the presence of exfoliated graphite . [9,22] When cNDIs were not used, no such dark dispersions were observed (Figure 2a). These results strongly suggest the existence π-donor-π-acceptor electrostatic interactions between the electron rich graphite and the electron deficient cNDIs in solid phase, leading to the disruption of the interlayer interactions, and hence the dispersion of graphite in the solvent.…”
Section: Resultsmentioning
confidence: 98%
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“…Following the addition of a solvent to the intimately mixed graphite-cNDI, and before sonication, an opaque suspension was observed ( Figure 2b and 2c) an indication of the presence of exfoliated graphite . [9,22] When cNDIs were not used, no such dark dispersions were observed (Figure 2a). These results strongly suggest the existence π-donor-π-acceptor electrostatic interactions between the electron rich graphite and the electron deficient cNDIs in solid phase, leading to the disruption of the interlayer interactions, and hence the dispersion of graphite in the solvent.…”
Section: Resultsmentioning
confidence: 98%
“…Specifically, the readily available cNDIs 2,6‐dibromo‐NDI (DBNDI) and 2,3,6,7‐tetrabromo‐NDI (TBNDI) (Figure ). These highly electron deficient cNDI molecules serve a dual purpose: (i) to enhance their electrostatic interactions with the readily available π electrons of graphite, essential in initiating cleavage and peeling away of graphene units; and (ii) to favour adsorptions of cNDIs onto the electron‐dense graphene surface to improve the dispersibility and stability of resultant graphene dispersions by reducing re‐aggregation/re‐stacking through the electrostatic repulsion effect . Systematic studies on the differences of graphene exfoliation yields in chloroform and NMP using both DBNDI and TBNDI are done and correlated to solvent interactions and steric effects as a result of di‐ and tetra‐bromo core substitution of cNDIs.…”
Section: Introductionmentioning
confidence: 99%
“…While sonication or shear force serves to exfoliate graphite by overcoming the interlayered π–π stacking interactions, the stabilizers adsorb on the exfoliated graphene surface through noncovalent interactions. On one hand, this effectively prevents their aggregation/re‐stacking based on the sterical hindrance mechanism or electrostatic repulsion effect, thus promoting efficient graphite exfoliation even in some common solvents . On the other hand, this also can concurrently render functionalized graphene.…”
Section: Introductionmentioning
confidence: 99%
“…On the other hand, this also can concurrently render functionalized graphene. So far, a diverse range of stabilizers have been explored for liquid‐phase exfoliation of graphite, including surfactants, functional small molecules, nanoparticles, polymers, ionic liquid, natural resins, etc. Nevertheless, the exploration of the multifunctional stabilizers, which not only can effectively promote graphite exfoliation, but also can concurrently functionalize the exfoliated graphene, remains highly desirable.…”
Section: Introductionmentioning
confidence: 99%
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