Revealing Detergent Efficiency and Mechanism by Real-Time Measurement Using a Novel and Tailored QCM-D methodology

Olesen, Kenneth; Leeuwen, C van; Andersson, Fredrik I.

doi:10.3139/113.110445

Cited by 13 publications

(7 citation statements)

References 13 publications

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“…Interestingly, the adsorption experiment of SEKL solution at pH 7 resulted in an increase, rather than a decline in f (Figure ), which shows the desorption of SEKL from the surface, instead of its adsorption onto the surface . This can happen when a hydrophobic segment of SEKL interacts with xylene.…”

Section: Resultsmentioning

confidence: 99%

“…Interestingly,t he adsorption experiment of SEKL solution at pH 7r esulted in an increase, rather than ad ecline in f (Figure 6), which shows the desorption of SEKL from the surface, instead of its adsorption onto the surface. [62,63] This can happenw hen ah ydrophobic segment of SEKL interacts with xylene.H owever,t he higherh ydrophilicity of SEKL ( Figure 5) at this pH keeps it in the water phase and desorption of oil occurs via the aqueous flow in the chamber.I ndeed, SEKL functions as ad etergent/surfactant in removing the oil droplets from the substrate. The fact that this removal happened at neutralp Hw ould introduce SEKL as ap otential biomaterial for the formulation of novel safe detergents.…”

Section: Rheological Characteristicsmentioning

confidence: 99%

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Pickering/Non‐Pickering Emulsions of Nanostructured Sulfonated Lignin Derivatives

Ghavidel

Fatehi

2020

ChemSusChem

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Sulfoethylated lignin (SEKL) polymeric surfactant and sulfoethylated lignin nanoparticles (N‐SEKL) with a size of 750±50 nm are produced by using a facile green process involving a solvent‐free reaction and acidification‐based fractionation. SEKL forms a liquid‐like conventional emulsion with low viscosity that has temporary stability (5 h) at pH 7. However, N‐SEKL forms a gel‐like, motionless, and ultra‐stable Pickering emulsion through a network of interactions between N‐SEKL particles, which creates steric hindrance among the oil droplets at pH 3. The deposition of SEKL and N‐SEKL on the oil surface is monitored by a using a quartz crystal microbalance. Experimentally, the formation of emulsions at pH 7 is found to be reversible owing to the low adsorption energy ΔE of SEKL on the oil droplet (ΔE≈15 kBT), which is determined with the help of three‐phase contact‐angle measurements. However, the high desorption energy (ΔE≈6.0×105 kBT) of N‐SEKL makes it irreversibly adsorb on the oil droplets. SEKL is too hydrophilic to attach to the oil interface (ΔE≈0) and thus does not facilitate emulsion formation at pH 11. Therefore, it is feasible to apply SEKL for the formulation of Pickering or non‐Pickering emulsions in the form of nanoparticles or polymeric surfactants, depending on the targeted application.

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Section: Resultsmentioning

confidence: 99%

Section: Rheological Characteristicsmentioning

confidence: 99%

Pickering/Non‐Pickering Emulsions of Nanostructured Sulfonated Lignin Derivatives

Ghavidel

Fatehi

2020

ChemSusChem

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“…First, the kinetics of Cu corrosion was monitored over time using the distribution of changes in f5 (i.e., changes of f5 every minute or denoted as Δf5 d ) (Calculation S1). Numerous studies indicated that changes in f (Δ f ) provide qualitative information about dynamic changes over the surface, and that increase in Δ f corresponds to a decrease in accumulated mass on the surface. ,,− ,− The increase in mass could be attributed to the accumulation of Cu(I) and Cu(II) corrosion byproducts and/or deposition of other minerals on the Cu sensor surface. In our study, it was impossible to distinguish the specific source of mass increase; however, given the simplicity of the test water makeup, it was unlikely that solids other than Cu corrosion byproducts would precipitate under the experimental conditions over the surface.…”

Section: Methodsmentioning

confidence: 99%

“…Quartz (SiO 2 ) crystal microbalance with dissipation (QCMD) monitoring can continuously capture the in situ nanoscale changes resulting from interfacial interactions and chemical reactions over surfaces via monitoring the change of resonating frequency and energy dissipation of a piezoelectric quartz crystal disk with a reasonable time resolution (usually within a few hours). − The QCMD has been widely applied in diverse fields, and some of the specific areas include studying cell adhesion and spreading, , membrane permeability, nanoparticle deposition mechanisms under different flowing conditions, detergent efficiency, and biological materials and bioengineered surfaces. , However, QCMD studies on Cu corrosion in drinking water chemistry are still lacking. Choi first used QCMD to examine the etching or dissolution rate of Cu exposed to deionized water at pH 2.0–10.0, which does not represent the typical drinking water chemistry .…”

Section: Introductionmentioning

confidence: 99%

Quartz Crystal Microbalance with Dissipation: A New Approach of Examining Corrosion of New Copper Surfaces in Drinking Water

Tang

Harmon

Nadagouda

et al. 2021

Environ. Sci. Technol.

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Corrosion of copper material in drinking water systems causes public health concerns and plumbing failures. This study investigated the early corrosion of new copper surfaces in situ using a novel technique: quartz crystal microbalance with dissipation (QCMD). The QCMD results showed that increasing the water pH from 6.5 to 9.0 and the addition of 6 mg/L orthophosphate at pH 6.5 and 9.0 slowed down the copper surface mass changes as indicated by the reduced changes in frequency (Δf5) at 51–89% and total copper release at 29–72%. The water pH 9.0 without orthophosphate was the most likely to induce localized corrosion relative to other conditions at pH 6.5 and pH 9.0 with orthophosphate. Based on the changes in dissipation values (ΔD5) from QCMD and the morphology, microstructure, and composition of the deposited copper corrosion byproducts, digital microscopy, field-emission scanning electron microscopy with energy dispersive spectroscopy, and X-ray photoelectron spectrometry analyses confirmed that the pH and orthophosphate inhibited copper corrosion with different mechanisms. QCMD provided sensitive, rapid, and continuous responses to mass and surface changes and can be useful for evaluating early water corrosivity to new copper.

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“…Other topics attracting great interest were to be found in papers which reported on measuring technique to determine the efficiency of detergents [2], washing performance and consumer satisfaction [4], the water and energy consumption in domestic laundry [6] and the new EU-Energy label for washing machines [10]. Three papers are concerned with hygiene issues during laundering.…”

mentioning

confidence: 99%

Review of the Year 2017

Föllner¹

2018

Tenside Surfactants Detergents

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Revealing Detergent Efficiency and Mechanism by Real-Time Measurement Using a Novel and Tailored QCM-D methodology

Cited by 13 publications

References 13 publications

Pickering/Non‐Pickering Emulsions of Nanostructured Sulfonated Lignin Derivatives

Pickering/Non‐Pickering Emulsions of Nanostructured Sulfonated Lignin Derivatives

Quartz Crystal Microbalance with Dissipation: A New Approach of Examining Corrosion of New Copper Surfaces in Drinking Water

Review of the Year 2017

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