We investigate the effect of a high concentration (32.5 normal g normal upper L Superscript negative 1 g L − 1 gL−1 ) of sodium chloride (NaCl) on tetradecyltrimethylammonium bromide vertical soap films, also called foam films, pulled out of a bath under controlled humidity conditions. We observe that the film lifetime increases with relative humidity, both in the presence and absence of salt. At any given humidity, the presence of NaCl systematically enhances film stability. Our film thickness measurements show that the thinning dynamics with or without salt is nearly identical down to 100 nm. Down to that thickness, the effect of evaporation can be rationalised by a constant evaporation rate, which becomes non-negligible compared with the drainage rate at film thicknesses below 400 nm. The main effect of salt is the stabilisation of a Newton black film at a thickness of approximately 5 nm, whereas in the absence of salt, the film ruptures upon reaching a critical thickness of approximately 10 nm.