2011
DOI: 10.1039/c0ee00295j
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Abstract: Extensive global research efforts have focused on the exploitation of graphene for enhanced energy storage. Novel graphene-based composite material electrodes have been developed, in many cases with reports of outstanding performance. However, the development of these composites involve extremely complex and costly procedures/methods whose scalability and eventual commercial exploitation is extremely hard [1]. Within the present activity the use of graphene nanotechnology is exploited to manufacture electrodes… Show more

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Cited by 1,184 publications
(676 citation statements)
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“…Graphene, the building block of the 1D CNTs, exists as a 2D layer of sp 2 -hybridised carbon one atom thick, and continues to attract considerable attention owing to its vast surface area (>2500 m 2 g -1 ), fast electron mobility and excellent electrical conductivity [145][146][147][148]. Li + diffusion in graphene is heavily influenced by edge effects [149,150] where the relative strength of Li + interaction (adsorption and diffusion) varies according to the morphology of the edge [149].…”
Section: Carbonmentioning
confidence: 99%
“…Graphene, the building block of the 1D CNTs, exists as a 2D layer of sp 2 -hybridised carbon one atom thick, and continues to attract considerable attention owing to its vast surface area (>2500 m 2 g -1 ), fast electron mobility and excellent electrical conductivity [145][146][147][148]. Li + diffusion in graphene is heavily influenced by edge effects [149,150] where the relative strength of Li + interaction (adsorption and diffusion) varies according to the morphology of the edge [149].…”
Section: Carbonmentioning
confidence: 99%
“…[6][7][8][9] Nanosized carbon materials such as carbon black, carbon nanotubes, and graphene are being developed as energy storage materials. 10 TiO 2 nanoparticles are being produced as semiconductors with photocatalytic effects. 11,12 ZnO nanoparticles are included in personal care products due to their ultraviolet absorbency.…”
Section: Introductionmentioning
confidence: 99%
“…The easily tunable structural stability, band structure and other electronic/magnetic properties, and also photonic and vibrational properties of graphene have been achieved through a number of techniques like: via vacancies Ugeda et al 2010;Singh et al 2013;Kaloni et al 2012), atomic/molecular doping (Medeiros et al 2010;Johll et al 2009;Thapa et al 2011;Chan et al 2008;Karki and Adhikari 2014;Saha et al 2009;Wu and Yang 2012), functionalization (Wood et al 2012;Ulman et al 2014), irradiation (Esquinazi et al 2003) and external fields (Park and Louie 2010). The modified compounds carry potential applications over many dimensions like in electronics (Geim 2009;Novoselov et al 2005Novoselov et al , 2007, spintronics (Palacios et al 2008;Ding et al 2011), chemical sensors (Saha et al 2009), and energy storage (Pumera 2011). Graphene with the adsorption of relevant metal atoms, clusters and other functional groups as impurities have been seriously considered and studied as substrates for gaseous adsorption (Wu and Yang 2012), including energy carrying gases methane and hydrogen (Wood et al 2012;Ulman et al 2014).…”
Section: Introductionmentioning
confidence: 99%