The pH-responsive behaviour of poly(acrylic acid) in aqueous solution is dependent on molar mass

Swift, Thomas; Swanson, Linda; Geoghegan, Mark; Rimmer, Stephen

doi:10.1039/c5sm02693h

Cited by 307 publications

(285 citation statements)

References 47 publications

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“…This pH is the isoelectric point of membranes. Results reported below were obtained at this pH, which is naturally obtained with polyacrylic acid (PAA) at a monomer concentration c = 0.1 M, because its dissociation constant ( pK a ≃ 4.528) is close to the one of acetic acid. Note that at this concentration only 1.8% of acid groups are dissociated.…”

Section: Resultsmentioning

confidence: 94%

“…In Fig. 7, τ B and τ L were computed from experimental D values28 for V = 0.5 V, L = 6 μ m, γ ≃ 2 × 10 −2 (i.e. pK a = 4.5 and c = 0.1 M), B = 200 nm and b = 2 nm and plotted as a function of N .…”

Section: Discussionmentioning

confidence: 99%

“…Data points correspond to τ B and τ L calculated from data of ref. 28. Horizontal dashed lines indicate the time-scale (frequency range) of Fig.…”

Section: Figurementioning

confidence: 99%

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The concept of entropic rectifier facing experiments

Lairez

Clochard

Wegrowe

2016

Sci Rep

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The transport of molecules in confined media is subject to entropic barriers. So theoretically, asymmetry of the confinement length may lead to molecular ratchets with entropy as the only driving force for the biased transport. We address experimentally this question by performing alternative ionic current measurements on electrolytes confined in neutral conical nanopores. In case anions and cations widely differ in size, we show that rectification of ionic current can be obtained that depends on ions size and cycle frequency, consistently with the entropic ratchet mechanism.

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Section: Resultsmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

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The concept of entropic rectifier facing experiments

Lairez

Clochard

Wegrowe

2016

Sci Rep

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“…The resulting surfactant/polyelectrolyte complexes form aggregate structures from the nano to micro scales. The structure and phase behavior of the resulting complexes can influence different parameters, such as charge density, molecular weight, hydrophobicity, concentration of the complex, and salinity of the wastewater, as well as the structure, polar head charge, hydrophobicity, and surfactant concentration …”

Section: Introductionmentioning

confidence: 99%

Enhanced flocculation activity of polyacrylamide‐based flocculant for purification of industrial wastewater

Daifa

Shmoeli

Domb

2019

Polymers for Advanced Techs

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The flocculation activity of commercially available anionic poly (acrylamide‐co‐acrylic acid), p (AAm‐co‐AA) has been significantly improved, without any inorganic coagulant aid. The effect of three types of surfactants, anionic sodium lauryl ether sulfate (SLES) (Palm Epimen), nonionic cocamide DEA, zwitterionic amphoteric Amphotensid B5, and one organic cation, trimethylammonium bromide (TAB) on coagulation/flocculation performance have been investigated. The performance has been analysed in terms of turbidity, total suspended solid (TSS), total iron (TI) content, and BTEX for treating two kinds of industrial wastewater, produced water (PW) and starch water. We have shown that adding a small amount of each of the studied surfactants, and especially cationic TAB, significantly increases the coagulation/flocculation performance without modifying pH levels. A combination of low dosage of flocculant (310 ppb) and TAB (310 ppb), after 5 minutes, presented 88%, 81%, and 62% reduction in turbidity, TSS, and TI content, respectively, whereas by using 5 ppm of flocculant alone (16 times more), only 76%, 75%, and 43% removal was obtained. The results reveal that TAB performs as an efficient coagulant booster. Compared with regular inorganic coagulants, it is more cost‐effective, reduces the consumption of treatment chemicals, and the pH‐dependency of contaminants removal.

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“…These issues could be overcome by employing a functional organic polymer consisting of covalently bound fluorophore units 27 . Incorporation of covalently bound fluorescent labels has been shown to be a powerful way of studying both the internal conformational changes of stimuli responsive polymers 28,29 and the complexation of multiple polymers in solution 30,31 , and FRET analysis using two chromophores can provide additional information in both systems 32,33 . Recently Ma et.…”

Section: Introductionmentioning

confidence: 99%