Electrostatic Surface Charging by Water Dewetting.

Autor: Knorr N; Stuttgart Laboratory 2, Sony Europe B.V., Hedelfinger Strasse 61, Stuttgart D-70327, Germany., Rosselli S; Stuttgart Laboratory 2, Sony Europe B.V., Hedelfinger Strasse 61, Stuttgart D-70327, Germany., Nelles G; Stuttgart Laboratory 2, Sony Europe B.V., Hedelfinger Strasse 61, Stuttgart D-70327, Germany.
Jazyk: angličtina
Zdroj: Langmuir : the ACS journal of surfaces and colloids [Langmuir] 2024 Jul 16; Vol. 40 (28), pp. 14321-14333. Date of Electronic Publication: 2024 Jul 05.
DOI: 10.1021/acs.langmuir.4c00906
Abstrakt: Water dewetting generates static electricity. We reviewed historical experiments of this phenomenon, and we studied the charging of polymer slides and metal electrode supported polymer films withdrawn vertically from a pool of aqueous solutions. For pure water, charging was negative and surface charge densities increased with the speed of dewetting, which we explain by the thermally activated entrainment of nanometer-sized water droplets or clusters charged by unbalanced adsorbed electric double-layer ions. Surface charge densities increased for reduced polymer film thickness following a power law, which we explain by reduced discharge of the entrained water volumes. At low salinity c ≲ 10 μM, charging was proportional to electrokinetic interfacial charge densities: the negative charging was increased for alkaline solutions and for most salts at μM concentrations and the charge polarity was inversed to positive for a cationic surfactant, a salt with a highly positively charged cation, and for a strong acid at approximately pH 4. Charging was reduced again for c ≳ 100 μM, especially at high dewetting speeds and for chaotropic ions, which we explain by the entrainment of larger and more discharged droplets. We determined adsorption energies of the charged water clusters on the dewetted surface from thermally stimulated discharge of the charged polymer slides and we show that the surface charge distribution, imaged by charged toner powders and measured microscopically by Kelvin probe force microscopy, is a record of the dewetting process that provides spatial and kinetic information about the three-phase contact line motion.
Databáze: MEDLINE