Kai Feng

TL;DR: In this article, the structural advantage and mechanism of GO@UiO-66-NH 2 in proton conduction were explored, and it was found the synergistic effect between GO and metal-organic framework (MOF) with suitable particle size was especially important for promoting proton transfer.

TL;DR: In this paper, sulfonated graphene oxide-silica (S-GO-SiO2) nanohybrid particles were obtained first and the FTIR, TGA, XRD, Raman, AFM, FE-SEM and EDX characterizations were employed to confirm the successful decoration of SiO2 onto GO surface and the attachment of sulfonic acid groups onto the GO−SiO 2 surface.

TL;DR: New degrees of freedom are offered to achieve transformations among the allotropic forms of carbon and/or develop new carbon material/polymer composite materials with excellent properties to significantly facilitate the proton transport with rolled up GOSs being independently incorporated.

TL;DR: Under some severe conditions, such as 50 °C with 80 v/v% of methanol concentration, an increase in the membrane selectivity could be achieved here, proving the method as a very promising way to prepare high-performance PEMs.