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CNT-graphene hybrids

Electrostatic interactions have recently been exploited for the synthesis of gra-phene-CNT hybrids. For example, poly(ethyleneimine) (PEI) coated graphene has been mixed with acid treated CNTs in a layer-by-layer method to form high surface area electrodes for supercapacitors [90]. Furthermore, Lu et al. prepared a supercapacitor electrode by mixing PDDA coated CNT-Mn02 hybrid with RGO [91]. [Pg.132]

As mentioned for porphyrins-graphene hybrids, electrocatalysis by porphyrins-CNTs nanoreactors can be found in oxidation or in reduction reactions. [Pg.487]

PI Conductometric (RT-300 °C) CNTs (reduced graphene hybrid films) NO, Jeong et al. (2010)... [Pg.231]

As fibers, CNTs can be considered one-dimensional molecules. Their radius virtually reduces to zero, whereas their lengths are typically on the order of micrometers. A useful simplification describes CNTs as hybrids of two other low-dimensional molecules graphene sheets (2D) are rolled up into tubes and capped at either end with fullerene (OD) hemispheres. It is worth considering some of the properties of these materials in detail to better understand certain properties of CNTs. [Pg.137]

The discovery of nanomateiials such as CNTs, graphene or gold nanoparticles impulse several studies in the field of preparation of hybrid materials obtained firom combination between nanoparticles and MN4 complexes, in order to get synergetic properties. Indeed, CNTs possess exceptional conductivity and high specific surface so that CNTs are attractive for the design of new electrode materials with unique... [Pg.303]

For more efficient utilization of MOFs sorbents, several hybrid systems based on MOFs with other solid sorbents have been investigated in the literature. The objective of having hybrid materials is to utilize the synergism between the two sorbents and therefore ultimately improve the overall performance in C02 separation. Moreover, sorbents such as activated carbons, graphenes, and CNTs provide the added feature of high surface area and easily functionalized sites which contribute to the tuning of the final properties of the composite... [Pg.136]

Carbon nanotubes (CNTs) constitute a nanostructured carbon material that consists of rolled up layers of sp2 hybridized carbon atoms forming a honeycomb lattice. After diamond, graphite and fullerenes, the one-dimensional tubular structure of CNTs is considered the 4th allotrope of carbon (graphene is the 5th). [Pg.5]

The structure of CNTs can be understood as sheets of graphene (i.e. monolayers of sp2 hybridized carbon, see Chapter 2) rolled-up into concentric cylinders. This results in the saturation of part of the dangling bonds of graphene and thus in a decrease of potential energy, which counterbalances strain energy induced by curvature and thus stabilizes the CNTs. Further stabilization can be achieved by saturating the dangling bonds at the tips of the tubes so that in most cases CNTs are terminated by fullerene caps. Consequently, the smallest stable fullerene, i.e. C60, which is - 0.7 nm in diameter, thus determines the diameter of the smallest CNT. The fullerene caps can be opened by chemical and heat treatment, as described in Section 1.5. [Pg.6]

Although there have been great advances in covalent functionalization of fullerenes to obtain surface-modified fullerene derivatives or fullerene polymers, the application of these compounds in composites still remains unexplored, basically because of the low availability of these compounds [132]. However, until now, modified fullerene derivatives have been used to prepare composites with different polymers, including acrylic [133,134] or vinyl polymers [135], polystyrene [136], polyethylene [137], and polyimide [138,139], amongst others. These composite materials have found applications especially in the field of optoelectronics [140] in which the most important applications of the fullerene-polymer composites have been in the field of photovoltaic and optical-limiting materials [141]. The methods to covalently functionalize fullerenes and their application for composites or hybrid materials are very well established and they have set the foundations that later were applied to the covalent functionalization of other carbon nanostructures including CNTs and graphene. [Pg.81]

The majority of studies have used surfactants that wrap around nanocarbons via van der Waals interactions [37]. For instance, surfactants such as sodium dodecylsulfate (SDS) are commonly used to disperse CNTs in aqueous solutions [38,39] while other surfactants, such as Pluorinc-123, are used to mechanically exfoliate graphene from graphite flakes (Fig. 5.4(a)) [40,41]. The polar head group of the surfactant can be used to further hybridize the nanocarbon via a range of covalent or noncovalent interactions [42]. For example, nanoparticles of Pt [43,44] and Pd [45] have been decorated onto SDS-wrapped MWCNTs. Similarly, Whitsitt et al. evaluated various surfactants for their ability to facilitate the deposition of Si02 NPs onto SWCNTs [46,47]. As an exam-... [Pg.129]

See other pages where CNT-graphene hybrids is mentioned: [Pg.131]    [Pg.150]    [Pg.301]    [Pg.302]    [Pg.311]    [Pg.312]    [Pg.312]    [Pg.89]    [Pg.89]    [Pg.131]    [Pg.150]    [Pg.301]    [Pg.302]    [Pg.311]    [Pg.312]    [Pg.312]    [Pg.89]    [Pg.89]    [Pg.175]    [Pg.187]    [Pg.298]    [Pg.302]    [Pg.314]    [Pg.332]    [Pg.439]    [Pg.463]    [Pg.468]    [Pg.469]    [Pg.222]    [Pg.333]    [Pg.3]    [Pg.115]    [Pg.7]    [Pg.112]    [Pg.214]    [Pg.244]    [Pg.592]    [Pg.206]    [Pg.292]    [Pg.274]    [Pg.44]    [Pg.46]    [Pg.76]    [Pg.125]    [Pg.125]    [Pg.126]    [Pg.127]    [Pg.128]    [Pg.132]   
See also in sourсe #XX -- [ Pg.178 , Pg.301 , Pg.307 , Pg.311 , Pg.487 ]



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