Andrea Lamberti

TL;DR: The role of key parameters such as electronic properties, specific surface area and photo-catalytic activity in the performance of these materials is discussed and proper optimization strategies are analysed in view of increasing the efficiency of the best performing TiO2 and ZnO-based nanostructure, toward their practical application in a solar water splitting device.

TL;DR: The resulting material is a three-dimensional arrangement of agglomerated and wrinkled graphene flakes decorated by MoS2 nanosheets with good electrical properties and high surface area, suitable to be employed as electrodes for supercapacitors, enabling both electric double-layer and pseudo-capacitance behaviors.

TL;DR: The air permeability of PDMS membranes can be easily tuned by varying their composition as mentioned in this paper, by varying the mixing ratio between oligomers and curing agent it is possible to strongly influence the chemical and mechanical properties of the elastomer resulting in a huge increase in the permeation of gas molecules across the membrane.

TL;DR: In this paper, the authors presented an innovative device consisting of a TiO2 nanotube-based dye sensitized solar cell and a graphene-based electrical double layer capacitor integrated in a flexible architecture.