BIBLIOGRAFÍA CONSULTADA
Alimohammadian, M., Sohrabi, B. Observation of magnetic domains in graphene magnetized by
controlling temperature, strain and magnetic field. Sci Rep 10, 21325 (2020).
Bano, I. Hussain, A.M. EL-Naggar, A.A. Albassam. Exploring the fluorescence properties of
reduced graphene oxide with tunable device performance. Diamond and Related
Materials,Volume 94, Pages 59-64,2019.
Barros E. B., et al, Raman spectroscopy of graphitic foams. PHYSICAL REVIEW B 71, 165422. 2005.
Biroju, Ravi, Narayanan, Tharangattu, Vineesh, Thazhe Veettil, New advances in 2D
electrochemistry—Catalysis and Sensing, 2018.
Bhuyan, Sajibul Alam, Nizam Uddin, Maksudul Islam, Ferdaushi Alam Bipasha, Sayed Shafayat
Hossain. Synthesis of graphene. Int Nano Lett (2016) 6:65–83
Jalil Charmi, Hamed Nosrati, Jafar Mostafavi Amjad, Ramin Mohammadkhani, Hosein Danafar.
Polyethylene glycol (PEG) decorated graphene oxide nanosheets for controlled release curcumin
delivery. VOLUME 5, ISSUE 4, E01466, APRIL 01, 2019
Childres, Luis A. Jaureguib,, Wonjun Parkb, Helin Caoa, and Yong P. Chena et al RAMAN
SPECTROSCOPY OF GRAPHENE AND RELATED MATERIALS. [www.physics.purdue.edu]. Ultimo
acceso 30/10/21.
Choucair, Mohammad, Thordarson, Pall, Stride, John, Gram-scale production of graphene based
on solvothermal synthesis and sonication. Nature nanotechnology, 2009.
Chung, Hoon & Zelenay, Piotr. (2015). Chung and Zelenay, Chem Commun 2015 (on-line
version). A Simple Synthesis of Nitrogen-Doped Carbon Micro- and Nanotubes.
Colom, J. Cañavate, M.J. Lis, G. Sanjuan, y I. Gil. Análisis estructural de Óxidos de Grafeno (GO)
y Óxidos de Grafeno reducidos (rGO). 2020
Durge, Rakhee & Kshirsagar, R.V. & Tambe, Pankaj. (2014). Effect of Sonication Energy on the
Yield of Graphene Nanosheets by Liquid-phase Exfoliation of Graphite. Procedia Engineering. 97.
10.1016/j.proeng.2014.12.429.
Fakhrullin R., Läysän Nigamatzyanova, Gölnur Fakhrullina, Dark-field/hyperspectral microscopy
for detecting nanoscale particles in environmental nanotoxicology research. Science of The Total
Environment. Volume 772,2021.
Fan, Qitang, Martin-Jimenez, Daniel, Ebeling, Daniel, Krug, Claudio K., Brechmann, Lea,
Kohlmeyer, Corinna et al. Nanoribbons with Nonalternant Topology from Fusion of Polyazulene:
Carbon Allotropes beyond Graphene. Journal of the American Chemical Society. 2019
Ferrari A.C. / Raman spectroscopy of graphene and graphite: Disorder, electron–phonon
coupling, doping and nonadiabatic effects. Solid State Communications 143 (2007)
Ferrari AC and J. Robertson Interpretation of Raman spectra of disordered and amorphous
carbon. Phys. Rev. B 61, 2000
Ferrari Andrea Carlo and Robertson John. Raman spectroscopy of amorphous, nanostructured,
diamond–like carbon, and nanodiamond. Phil. Trans. R. Soc. A.3622477–2512. 2004

15

Puede verificar la autenticidad, validez e integridad de este documento en la dirección:
https://verificarfirma.ual.es/verificarfirma/code/tSSoCCK0v5uLGK1kjtpwdg==
Firmado Por
ID. FIRMA

Pablo Campra Madrid
afirma.ual.es

tSSoCCK0v5uLGK1kjtpwdg==

tSSoCCK0v5uLGK1kjtpwdg==

Fecha

02/11/2021

PÁGINA

16/22