Semipermanent capillary coatings in mixed organic–water solvents for CE

Diress, Abebaw G.; Yassine, Mahmoud M.; Lucy, Charles A.

doi:10.1002/elps.200600440

Cited by 23 publications

(18 citation statements)

References 42 publications

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“…From Table 1, it is clear that alkyltrimethylammonium compounds (ATMAC) and DADMACs, show correlations exist between increasing hydrophobicity and decreasing critical micelle concentration. Table 1 also illustrates that data on CMC are incomplete and incoherent between authors as experimental setups vary (Asakawa et al 2001;Lemić et al 2005;Marcotte et al 2005;Diress et al 2007;Cepeda et al 2013). Several studies have reported calculated values for the octanol-water partition coefficient for QAACs, although, these are not valid due to the surfactant nature of this compound class.…”

Section: Structures and Properties Of Qaacsmentioning

confidence: 99%

Quaternary ammonium compounds in soil: implications for antibiotic resistance development

Mulder

Siemens

Sentek

et al. 2017

Rev Environ Sci Biotechnol

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Quaternary ammonium compounds (QACs) are surface-active, antimicrobial, high production volume (HPV) chemicals with a broad application in agriculture. This review provides a comprehensive overview of (1) predicted and measured concentrations of QACs in soils including their analysis, (2) sequestration mechanisms in soils based on their physicochemical properties and chemical structure, and (3) implications of concentrations and fate of QACs in soils for the proliferation of antibiotic resistance in the environment. Predicted environmental concentrations (PEC) for QACs that are applied to soils with manure are in the order of 3.5 mg kg -1 . Based on literature data, the median PEC of QAC in sewage sludge amended soils is 25 lg kg -1 . The positively charged QACs are mainly sorbed to clay minerals. We propose that QACs might be sequestered in the interlayer regions of layered silicates in clayrich soils, reducing their acute toxicity, while increasing their persistence. The release of sequestered QACs from soil can still potentially maintain concentration levels that are sufficient to develop antibiotic resistance in the environment.

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Section: Structures and Properties Of Qaacsmentioning

confidence: 99%

Quaternary ammonium compounds in soil: implications for antibiotic resistance development

Mulder

Siemens

Sentek

et al. 2017

Rev Environ Sci Biotechnol

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“…2C 18 DAB is a double-chained synthetic surfactant that has frequently been used as a coating agent. [14][15][16][17] The structure of this surfactant resembles 2436 M. Zandkarimi et al phospholipids in a living cell membrane. Double-chained surfactants such as phospholipids or 2C 18 DAB form a flat, uniform, and semi-stable bilayer and make suitable coating agents.…”

Section: Resultsmentioning

confidence: 94%

Effect of Cyclodextrins on the Stability of Bilayer: A Novel Electrophoretic Approach

Zandkarimi

Tabrizian

Darbandi

et al. 2014

Journal of Liquid Chromatography & Related Technologies

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& In capillary electrophoresis, a common approach to prevent adsorption of an analyte onto a capillary's inner surface is to use surfactants as coating materials. These coating materials form a bilayer structure that resembles the arrangement of phospholipids (natural surfactants) in cell membranes. In this study, a bilayer coating was produced on the surface of a capillary using either a doublechained cationic surfactant, dimethyldioctadecylammonium bromide (2C 18 DAB), or a triple-chained cationic surfactant, tridodecylmethylammonium iodide (3C 12 MAI). The resulting bilayer coatings were investigated in the presence of various neutral cyclodextrins using hydrodynamic rinsing and performing successive runs. All types of cyclodextrins that were investigated had the effect of partially destabilizing the bilayer. However, cyclodextrin, as well as type of surfactant has a remarkable effect on the extent of a bilayer's stability. The most stable bilayer was obtained on capillaries coated with 2C 18 DAB using HP-bCD as the running buffer. Under such conditions, reversed EOF (electroosmotic flow) decreased only by 1.5% in over 100 min of electrophoretic separation.

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“…The results illustrate that methylation to quaternary ammoniums gives a surface with a fixed or permanent charge, and thus constant l eof , in the pH range studied. The decrease in the protonation of imine groups of PEI in the nonmethylated capillary with increasing pH causes the wall to be less positively charged and thus results in a decrease in EOF [1,5,8]. The large deviation at pH 10 in the nonmethylated capillary is not a true SD as it represents a trend to lower EOF over time beginning at -2.64610 -4 cm 2 /Vs and decreases with repeated measurements to -1.86610 -4 cm 2 /Vs.…”

Section: Eof In Modified Capillariesmentioning

confidence: 83%

Covalent modification of fused silica capillaries with quaternized polyamines to achieve robust and stable anodic electroosmotic flow

Stine

Palmer²

2009

J of Separation Science

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Synthetic chemistry originally developed for the manufacture of chemically stable silica polyamine composites was adapted for the modification of fused silica capillaries for application in CE. Polyethyleneimine (PEI) and polyallylamine (PAA) were covalently bonded to the interior surface of fused silica capillaries utilizing 3-chloropropyltrichlorosilane (CPTCS) or 3-glycidoxypropyl-trimethoxysilane (GPTMS) to anchor the polymers to the surface. The surface-bound polymers were subsequently quaternized using methyl iodide (MeI). The resulting modified capillaries were studied using CE, and were shown to provide reproducible, stable, and robust anodic EOF throughout the pH range of 2-10. Surface modifications utilizing CPTCS could be rinsed with up to 6 M HCL or 1 M NaOH without significant loss of surface modifier. The utility of the modified capillaries for the separation of simple anions and cations was demonstrated.

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Semipermanent capillary coatings in mixed organic–water solvents for CE

Cited by 23 publications

References 42 publications

Quaternary ammonium compounds in soil: implications for antibiotic resistance development

Quaternary ammonium compounds in soil: implications for antibiotic resistance development

Effect of Cyclodextrins on the Stability of Bilayer: A Novel Electrophoretic Approach

Covalent modification of fused silica capillaries with quaternized polyamines to achieve robust and stable anodic electroosmotic flow

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