Abstract
Bubble separation is a widely used and effective method for separating solids from liquids. In this study, we propose a method to generate roughly ∼104 microbubbles/μl in an ethanol–water solution (surfactant-free) by subjecting the container of the solution to impact. Hydrophobic carbon nanotubes (CNTs) and hydrophilic carboxylated CNTs can be rapidly separated by the process of attachment of CNTs to rising microbubbles. More than 90% of hydrophobic CNTs can be collected on the top layer of the solution by microbubbles generated in the ethanol solution. The proposed mechanism of bubble enhancement material separation in ethanol solution is because of the effect of hydrophobic surfaces of surfactant-free microbubbles, while normal microbubbles in a surfactant solution have hydrophilic surfaces. CNTs can be separated from the solution by microbubbles with hydrophobic surfaces. The results show that the use of surfactant-free microbubbles can achieve high efficiency of recovery of CNTs in a short time, which provides a potential method for the separation of different materials based on their surface properties.
Highlights
Bubbles generated in surfactant solutions with the hydrophilic surface property have been reported
Different concentrations of ethanol solution, namely, 0%, 50%, 75%, and 100% (v/v), diluted with deionized (DI) water, a cationic surfactant solution [dodecyldimethylethylammonium bromide (DDAB) purchased from Tokyo Chemical Industry], an anionic surfactant solution [sodium dodecyl sulfate (SDS) purchased from Merck], a nonionic
As the concentration of the ethanol solution increases from 50% to 75%, the microbubbles generated by subjecting the container surface to impact gradually decrease
Summary
A microbubble is defined as a bubble having a diameter of
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