S.E. Urreta scite author profile

Liquid-phase exfoliation is one of the most promising routes for large scale production of multilayer graphene dispersions. These dispersions, which may be used in coatings, composites or paints, are believed to contain disorder-free graphene multilayers. Here we address the nature of defects in such samples obtained by liquid-phase exfoliation of graphite powder in N-methyl--2--pyrrolidone. Our Raman spectroscopy data challenges the assumption that these multilayers are free of bulk defects, revealing that defect localization strongly depends on the sonication time. For short ultrasound times, defects are located mainly at the layer edges but they turn out to build up in the bulk for ultrasonic times above 2 h. This knowledge may help to devise better strategies to achieve high-quality graphene dispersions.Comment: 5 pages, 4 figure

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Mechanical spectroscopy of thermal stress relaxation at metal–ceramic interfaces in Aluminium-based composites

Carreño-Morelli

Urreta

Schaller

2000

Acta Materialia

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Fracture behaviour of an Al–Mg–Si industrial alloy

Urreta

Louchet

Ghilarducci

2001

Materials Science and Engineering: A

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A Cu2+-Cu/glassy carbon system for glyphosate determination

Aguirre

Urreta

Gómez

2019

Sensors and Actuators B: Chemical

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S.E. Urreta

On the Nature of Defects in Liquid-Phase Exfoliated Graphene

Mechanical spectroscopy of thermal stress relaxation at metal–ceramic interfaces in Aluminium-based composites

Fracture behaviour of an Al–Mg–Si industrial alloy

A Cu2+-Cu/glassy carbon system for glyphosate determination

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