J
Juan M.D. Tascón
Researcher at Spanish National Research Council
Publications - 285
Citations - 19447
Juan M.D. Tascón is an academic researcher from Spanish National Research Council. The author has contributed to research in topics: Adsorption & Graphene. The author has an hindex of 62, co-authored 281 publications receiving 17357 citations. Previous affiliations of Juan M.D. Tascón include Université catholique de Louvain & Bulgarian Academy of Sciences.
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Graphene oxide dispersions in organic solvents.
TL;DR: In all of these solvents, full exfoliation of the graphite oxide material into individual, single-layer graphene oxide sheets was achieved by sonication, and graphene oxide dispersions exhibited long-term stability and were made of sheets between a few hundred nanometers and a few micrometers large.
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Vitamin C Is an Ideal Substitute for Hydrazine in the Reduction of Graphene Oxide Suspensions
M.J. Fernández-Merino,L. Guardia,Juan I. Paredes,Silvia Villar-Rodil,Pablo Solís-Fernández,Amelia Martínez-Alonso,Juan M.D. Tascón +6 more
TL;DR: In this paper, the deoxygenation efficiency of graphene oxide suspensions by different reductants (sodium borohydride, pyrogallol, and vitamin C, in addition to hydrazine), as well as by heating the suspensions under alkaline conditions, was compared.
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Raman microprobe studies on carbon materials
TL;DR: In this article, the authors analyzed the Raman spectra of 29 different carbon materials, including all types of carbonaceous solids of practical interest, and found that the width of the D band correlates well with the degree of disorder over the entire order-disorder interval.
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All in the graphene family - A recommended nomenclature for two-dimensional carbon materials
Alberto Bianco,Hui-Ming Cheng,Toshiaki Enoki,Yury Gogotsi,Robert H. Hurt,Nikhil Koratkar,Takashi Kyotani,Marc Monthioux,Chong Rae Park,Juan M.D. Tascón,Jin Zhang +10 more
TL;DR: This article proposed a nomenclature for two-dimensional carbons that could guide authors toward a more precise description of their subject materials, and could allow the field to move forward with a higher degree of common understanding.
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Atomic force and scanning tunneling microscopy imaging of graphene nanosheets derived from graphite oxide.
Juan I. Paredes,Silvia Villar-Rodil,Pablo Solís-Fernández,Amelia Martínez-Alonso,Juan M.D. Tascón +4 more
TL;DR: The chemically reduced graphene oxide nanosheets were hardly distinguishable from their unreduced counterparts in the topographic AFM images, however, they could be readily discriminated through phase imaging in the attractive regime of tapping-mode AFM, probably because of differences in hydrophilicity arising from their distinct oxygen contents.