화학공학소재연구정보센터
Journal of Colloid and Interface Science, Vol.515, 248-254, 2018
Electric field induced charging of colloidal particles in a nonpolar liquid
Hypothesis: Colloidal particles in a pure nonpolar solvent are expected to be in a state of dynamic equilibrium where a particle's charge fluctuates around a stable mean value. However, we find that PHSA-coated PMMA microparticles in dodecane gain positive charge over time. We hypothesize that this phenomenon is prompted by the high electric field (similar to 1 V/mu m) that is applied in these measurements. Hence, we expect the reaction rate at which charge builds up on the particle to change when modifying the measurement parameters. Experiments: Single elementary charging and discharging events can be resolved by measuring the charge of PHSA-coated PMMA particles with optical trapping electrophoresis. With this technique, the influence of the electric field amplitude and frequency, particle size, electrode material and acquired charge can be investigated. Findings: The rate of the charging phenomenon is proportional to the amplitude of the applied electric field and the charging stops when the voltage is switched off. We propose a reaction mechanism where the particle sheds negatively charged ions. This mechanism can account for all the experimental observations of the electric field induced charging phenomenon. (C) 2018 Elsevier Inc. All rights reserved.