Ana M. Pérez-Mas scite author profile

Structural flexibility in a petroleum pitch-derived carbon material has been indirectly evaluated using X-ray diffraction (XRD), immersion calorimetry and inelastic neutron scattering (INS) measurements. Exposure of the carbon material to an organic solvent (e.g., n-nonane) gives rise to a large internal rearrangement, associated with a drastic re-ordering of the graphitic microdomains. These structural changes are also associated with a high flexibility of the internal porous network, as observed by inelastic neutron scattering measurements. The internal rearrangement and the structural flexibility could be responsible for the excellent performance of this kind of activated carbons in a wide variety of adsorption processes. Last but not least, the structural characteristics of these carbon materials composed of graphitic microdomains has been used to synthesize graphene “egg-like” flakes following a simple procedure based on exfoliation with organic solvents

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Influence of the carbonization temperature on the mechanical properties of thermoplastic polymer derived C/C-SiC composites

Reichert

Pérez-Mas

Barreda

et al. 2017

Journal of the European Ceramic Society

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Graphene patterning by nanosecond laser ablation: the effect of the substrate interaction with graphene

Pérez-Mas

Álvarez

Campos³

et al. 2016

J. Phys. D: Appl. Phys.

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This paper focuses on the development of patterned graphene/substrate by means of green nanosecond pulse laser irradiation. Monolayer graphene samples supported on a Si/SiO 2 substrate were patterned using 532 nm laser irradiation under fluence conditions ranging from 31 mJ/cm 2 and to 4240 mJ/cm 2. Raman spectroscopy was used to investigate the effect of laser irradiation on the graphene. It was found that at 356 mJ/cm 2 selective ablation of the graphene occurs. However, at fluence values above 1030 mJ/cm 2 (when damage to the substrate is observed) no ablation of the graphene takes place. In contrast, its graphenic structure was found to have been modified. Only at fluence values where the ablation of the substrate occurs, is graphene eliminated in an area almost equivalent to that of the ablated substrate. In this case, additional damage to the graphene sheet edges is produced. The increment in the number of oxygenated functional groups in these regions, as measured by XPS spectroscopy, suggests that this damage is probably caused by thermal phenomena during the ablation of the substrate.

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Enhanced covalent p-phenylenediamine crosslinked graphene oxide membranes: Towards superior contaminant removal from wastewaters and improved membrane reusability

Kandjou

Pérez-Mas

Acevedo

et al. 2019

Journal of Hazardous Materials

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Ana M. Pérez-Mas

Optimization of the size and yield of graphene oxide sheets in the exfoliation step

Unusual flexibility of mesophase pitch-derived carbon materials: An approach to the synthesis of graphene

Influence of the carbonization temperature on the mechanical properties of thermoplastic polymer derived C/C-SiC composites

Graphene patterning by nanosecond laser ablation: the effect of the substrate interaction with graphene

Enhanced covalent p-phenylenediamine crosslinked graphene oxide membranes: Towards superior contaminant removal from wastewaters and improved membrane reusability

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