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Beilstein J. Nanotechnol. 2016, 7, 1174–1196, doi:10.3762/bjnano.7.109
Figure 1: (a) Raman spectra and (b) XPS survey scans of graphite, graphene oxide and thermally reduced graphe...
Figure 2: Wrinkling of multilayered graphene: (a) A typical wrinkling pattern. (b) A magnified view of the wr...
Figure 3: (a) SWNT, (b) cut and flattened SWNT consisting of single-layer graphene (SLG), (c) MWNT, and (d) c...
Figure 4: Schematics of graphene sheets rolled to form CNTs with different conformations (A: armchair, B: zig...
Figure 5: A combination of bath sonication, tip sonication, and manual stirring can help to improve the dispe...
Figure 6: (A) Calendering mill, and (B) its working principle. Images reproduced with permission from [56], copyr...
Figure 7: (A) Shear mixer, and (B) extruder. Reproduced with permission from [40], copyright 2010 Elsevier.
Figure 8: Schematic of a shearing device. Reproduced with permission from [55], copyright 2007 Elsevier.
Figure 9: The maximum improvement in K1C as a function of dispersion mode [17,60-62,79-104].
Figure 10: Unfunctionalized and differently functionalized CNTs. Reproduced with permission from [53], copyright 2...
Figure 11: TEM image of a SWNT; the uneven surface shows the attachment of functionalized groups. Reproduced w...
Figure 12: Schematic of non-covalent CNT functionalizations: (A) polymer wrapping, reproduced with permission ...
Figure 13: Improvement in K1C as a function of functionalization method [17,60-62,79-104].
Figure 14: Schematic diagram of an arc evaporator (horizontal arrangement of electrodes). (A) carbonaceous har...
Figure 15: Effect of CSCNT loading on strength and modulus of nanocomposites. Reproduced with permission from [141]...
Figure 16: Increase in tensile properties of epoxy–graphene nanocomposites [145,146,149-158].
Figure 17: Effect of CNT functionalization on the electrical conductivity of CNT–epoxy nanocomposites [40], copyri...
Figure 18: Effect of CSCNT loading on electrical resistivity. Reproduced with permission from [141], copyright 2009...
Figure 19: Increase in electrical conductivity as a function of dispersion method [70,97,173-201].
Figure 20: Increase in thermal conductivity as a function of the dispersion method [45,89,111,195,198,206-220].