2010
DOI: 10.1016/j.cocis.2010.01.002
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Hydroxide and hydronium ion adsorption — A survey

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Cited by 224 publications
(195 citation statements)
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“…Hydrophobic surfaces immersed in neutral pH water solutions of low salt concentrations typically acquire negative surface charge densities of about 10 -2 C m -2 (see Table II), as determined by streaming current experiments. 73,74 022119 Thus, dissociation of only a small fraction of the adsorbed water molecules would be sufficient to explain the observed maximal net charges densities, and it may also be sufficient for the roughly ten times higher charge densities observed here. Furthermore, it must be considered that water adsorption is increased at the swab contact site during rubbing due to capillary condensation, especially for hydrophilic polymer combinations, and will be even further enhanced, in a positive feed-back, due to electric field-adsorption of water once the swab apex has been charged, for both hydrophilic and hydrophobic polymers.…”
Section: B Water As a Source Of Triboelectric Chargementioning
confidence: 79%
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“…Hydrophobic surfaces immersed in neutral pH water solutions of low salt concentrations typically acquire negative surface charge densities of about 10 -2 C m -2 (see Table II), as determined by streaming current experiments. 73,74 022119 Thus, dissociation of only a small fraction of the adsorbed water molecules would be sufficient to explain the observed maximal net charges densities, and it may also be sufficient for the roughly ten times higher charge densities observed here. Furthermore, it must be considered that water adsorption is increased at the swab contact site during rubbing due to capillary condensation, especially for hydrophilic polymer combinations, and will be even further enhanced, in a positive feed-back, due to electric field-adsorption of water once the swab apex has been charged, for both hydrophilic and hydrophobic polymers.…”
Section: B Water As a Source Of Triboelectric Chargementioning
confidence: 79%
“…This charge-separation process has been explained by a stronger adsorption of hydroxide ions than positive water ions to the channel walls. 74,90 The water ions stay in close proximity to each other in still water, but are separated in strong currents.…”
Section: E Analogies To the Proposed Triboelectric And Electrokinetimentioning
confidence: 99%
“…The uncharged species possess an IEP of around 3 and are slightly negatively charged (´32 mV at pH 7). This is due to the fact that even inert and uncharged surfaces have a small zeta potential resulting from adsorption of hydroxide ions from the self-ionization of water [50,51].…”
Section: Characteristics Of Ps Beads With Different Surface Chargementioning
confidence: 99%
“…The pristine PVDF membrane shows a trend that is typical for uncharged polymeric materials without further modifications. Due to the adsorption of hydroxide ions originating from the self-ionization of water the membrane surface appears to be negatively charged reaching its isoelectric point at a pH of 3.0 [50,51] and has a zeta potential of´40 mV at pH 7.…”
Section: Characteristics Of Modified Pvdf Membranesmentioning
confidence: 99%
“…In particular, the binding strength of the ion hydration shell has direct consequences for their interfacial behavior; small hard ions that form a strong hydration shell, such as alkali cations or fluoride, are depleted from the interface, whereas large polarizable ions, for example heavier halides and hydronium, may show propensity for the interface. 2,5,[18][19][20][21] The possibility to characterize the liquid-liquid interface on a microstructural level and the detailed dynamics information readily available have raised significant interest on molecular dynamics simulations of ions and their interactions at immiscible water -organic solvent interfaces since 1990s, 4,[22][23][24][25][26][27][28][29][30][31][32][33] but only recently molecular simulations have reached the system sizes and timescales sufficient to describe interfacial coarsening and transport through the interface in atomistic detail. 32,34 The approaches taken are dominantly classical, point-like partial charge models although the need for polarizable, or quantum mechanical models, has been argued.…”
Section: Introductionmentioning
confidence: 99%