Fei Guo

TL;DR: In this article, a set of iCVD-treated electrospun poly(trimethyl hexamethylene terephthalamide) (PA6(3)T) fiber membranes with fiber diameters ranging from 0.25 to 1.8 μm were tested for desalination using the air gap membrane distillation configuration.

TL;DR: It is shown that ultrathin graphene oxide (GO) films can serve as effective barriers for both liquid and vapor permeants, and the Hg barrier performance of GO films is found to be sensitive to residual water in the films, consistent with molecular dynamics simulations that show lateral diffusion of Hg atoms in graphene interlayer spaces that have been expanded by hydration.

TL;DR: Bulk samples of multilayer graphene plates stack in an irregular fashion that preserves the 2600/N surface area and creates regular slot-like pores with sizes that are multiples of the unit plate thickness, demonstrating the potential to partially restore the large monolayer surface.

TL;DR: The results for permeate flux and salt rejection show that it is possible to construct membranes for membrane distillation even from intrinsically hydrophilic materials after surface modification by iCVD and that the fiber diameter is shown to play an important role on the membranes distillation performance in terms of permeate fluid, salt rejection, and liquid entry pressure.