Adsorption properties of cermet and track-etched poly(ethylene terephthalate) membranes

Abstract: The adsorption properties of cermet and track-etched poly(ethylene terephthalate) (PET-TM) membranes are compared with respect to proteins and water-soluble dyes. It is shown that the cermet membranes have a noticeably higher adsorption capacity (calculated per unit surface area) than the PET-TM. In this case, the character of adsorption of these substances on both types of membranes is quite similar and determined by the combination of ionic and hydrophobic interactions. The adsorption values of basic dyes ar… Show more

“…In addition, the physical-chemical properties have been well investigated [9][10][11][12]. For example, the electrokinetic behavior of track-etched membranes made from poly(ethylene terephthalate) (PET), with pore diameters between 20-580 nm, was investigated by Déjardin et al [13], and the adsorption of proteins and water-soluble dyes on track-etched PET membranes were reported by Khataibe et al [14]. It is interesting to note that the proposed mechanism of adsorption on the surface of the membranes took into account ionic, hydrophobic and hydrophilic interactions [10]; these may be exploited in porphyrin self-assembly onto similar PET substrates.…”

Ionic self-assembly of porphyrin nanostructures on the surface of charge-altered track-etched membranes

“…In addition, the physical-chemical properties have been well investigated [9][10][11][12]. For example, the electrokinetic behavior of track-etched membranes made from poly(ethylene terephthalate) (PET), with pore diameters between 20-580 nm, was investigated by Déjardin et al [13], and the adsorption of proteins and water-soluble dyes on track-etched PET membranes were reported by Khataibe et al [14]. It is interesting to note that the proposed mechanism of adsorption on the surface of the membranes took into account ionic, hydrophobic and hydrophilic interactions [10]; these may be exploited in porphyrin self-assembly onto similar PET substrates.…”

Ionic self-assembly of porphyrin nanostructures on the surface of charge-altered track-etched membranes

Adsorption of malachite green on silica gel: Effects of NaCl, pH and 2-propanol