作者：Huang, Qing-Lin Xiao, Chang-fa Feng, Xian-she Hu, Xiao-Yu
关键字：super-hydrophobic，PTFE
论文来源：期刊
具体来源：New Journal of Chemistry
发表时间：2013年
Polytetrafluoroethylene (PTFE) membranes with unique structures were fabricated from a mixture of a
PTFE emulsion and a poly(vinyl alcohol) (PVA) aqueous solution. The formation of the micro–nano
structures in the PTFE membrane was ascribed to PTFE crystallization. By controlling the cooling rate
during membrane formation, various PTFE membranes with different structures and properties
prepared, which showed a super-hydrophobicity with a water static contact angle (1551) and a sliding
angle (8.31) owing to their micro–nano structures. The results of DSC thermal analysis, XRD and
polarized light microscope examination revealed that the micro–nano structures in the membrane were
derived from improved PTFE crystallization during the cold-stretching process, resulting in a crystalline
phase comprising of the micro aggregates and an amorphous phase comprising of the nano structures.
The resulting membrane was shown to be highly porous while still maintaining a super-hydrophobicity.
A critical transmembrane pressure of as high as 0.65 MPa was achieved because of the superhydrophobicity
of the membrane. The membranes were further investigated for use in vacuum
membrane distillation (VMD), and the effects of membrane structures on the water vapour flux were
studied. The VMD flux increased obviously with the increase in membrane pore size when the
membrane suffered stretching.