Matilde Eredia

TL;DR: A novel green chemistry approach to assemble copper-nanowires/reduced-graphene-oxide hybrid coatings onto inorganic and organic supports that hold potential for being exploited as transparent electrodes in numerous optoelectronic applications such as solar cells, light-emitting diodes, and displays.

TL;DR: The results indicate that the con-trolled functionalization of the two sides of WSe2 mono- and bi-layer flakes with highly ordered molecular monolayers offers the possibility to simultaneously achieve energy level engineering and defect functional-ization, representing a path towards the deterministic control over charge transport in 2D materials.

TL;DR: The ultrasound-assisted exfoliation and shear-mixing of a multi-phasic vermiculite in mild acidic aqueous solutions were employed to successfully obtain dispersions of mono- and few-layer thick clay nanosheets, which may enable in the future the generation of patterns of thermal insulators onto different surfaces by applying verMiculite nanOSheets in the form of dispersions and printable inks.

TL;DR: In this article, a fast and efficient preparation method for two-dimensional transition metal dichalcogenides (TMDs) is presented, which enables to obtain a remarkable yield of nanosheets with large area and high quality.

TL;DR: Thin film electrodes based on such hybrid materials for micro-supercapacitors exhibit excellent electrochemical performance, namely high volumetric capacitance of 340 F cm-3 and power density of 1000 W cm-2, thus outperforming most of the reported graphene-based micro- SuperCapacitors.