Studies on the surface free energy and surface structure of PTFE film treated with low temperature plasma

The surface free energy and surface structure of poly(tetrafluoroethylene) (PTFE) film treated with low temperature plasma in O 2 , Ar, He, H 2 , NH 3 , and CH 4 gases are studied. The contact angles of the samples were measured, and the critical surface tension g c (Zisman) and g c (max) were determined on the basis of the Zisman's plots. Furthermore, the values of nonpolar dispersion force g a s , dipole force g b s , and hydrogen bonding force g c s to the surface tensions for the plasma-treated samples were evaluated by the extended Fowkes equation. Mainly because of the contribution of polar force, the surface free energy and surface wettability of PTFE film which was treated with H 2 , He, NH 3 , Ar, and CH 4 for a short time increased greatly. Electron spectroscopy for chemical analysis (ESCA) shows that the reason was the decrease of fluorine and the increase of oxygen or nitrogen polar functional group on the surface of PTFE.