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1314 Yuxin Yan et al. [218] [219] nanotubes to form graphene nanoribbons. Nature. 2009;458(7240):872–6. Saghafi M, Mahboubi F, Mohajerzadeh S, Fathi M, Holze R. Longitudinal unzipping of carbon nanotubes and their electrochemical performance in supercapacitors. Curr Appl Phys. 2014;14(10):1335–43. Xiao B, Li X, Li X, Wang B, Langford C, Li R, et al. Graphene nanoribbons derived from the unzipping of carbon nanotubes: Controlled synthesis and superior lithium storage performance. J Phys Chem C. 2014;118(2):881–90. [220] [221] [222] Liu Q, Shi Y, Zheng S, Ning L, Ye Q, Tao M, et al. Amine- functionalized low-cost industrial grade multi-walled carbon nanotubes for the capture of carbon dioxide. J Energy Chem. 2014;23(1):111–8. Oliveira ML, Izquierdo M, Querol X, Lieberman RN, Saikia BK, Silva LF. Nanoparticles from construction wastes: A problem to health and the environment. J Clean Prod. 2019;219:236–43. Kim J, Lee G, Kim J. Wafer-scale synthesis of multi-layer graphene by high-temperature carbon ion implantation. Appl Phys Lett. 2015;107(3):033104.PDF Image | Synthesis of graphene Potential carbon precursors
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