Search results for " protonation constants"

showing 4 items of 4 documents

Protonation Constants of Halloysite Clay Nanotubes

2015

Halloysite is one of the most interesting nano-structured clay materials. It is similar to kaolin but has a hollow tubular structure that can be attributable to particular crystallization conditions. Typically, halloysite nanotubes (HNTs) are formed by 15 – 20 aluminosilicate layers, has a length of 1 ± 0.5 μm and inner and outer diameters of 1 - 30 and 30 - 50 nm, respectively [1,2]. In each layer the SiOH and the AlOH groups are disposed on the external and the internal surfaces, respectively. The particular structure of HNTs makes this kind of material very useful for different purposes in several fields. Among the various applications, worth of mention are: i) their use as additive for …

Halloysite protonation constants acid-base properties nanotubesSettore CHIM/01 - Chimica Analitica
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Acid-base properties of halloysite clay nanotubes in NaCl medium

2014

Settore CHIM/01 - Chimica AnaliticaHalloysite acid-base properties potentiometry protonation constants
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Modelling of protonation constants of halloysite clay nanotubes in various aqueous media, at different ionic strengths

2015

In the last decade nanoparticles have assumed more and more importance because of their particular properties mainly due to the nanometer-scale dimensions that confer them a large surface/volume ratio. Among nanomaterials one of the most studied is the halloysite that, as well as the other natural clay minerals is safe for human and environmental friendly. Halloysite is abundant and cheap and is present in large deposits worldwide like those in New Zealand, France, Belgium and China [1,2]. It is similar to kaolin but has a hollow tubular structure that can be attributable to particular crystallization conditions. Typically, halloysite nanotubes (HNTs) are formed by 15 – 20 aluminosilicate l…

Settore CHIM/01 - Chimica AnaliticaHalloysite protonation constants nanotubes clay
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Speciation of trialkyltin(IV) cations in natural fluids

2004

The hydrolysis of (CH(3))(3)Sn(+), (C(2)H(5))(3)Sn(+) and (C(3)H(7))(3)Sn(+) has been studied in a Synthetic Seawater (SSW) ionic medium simulating the major composition of natural seawater, at different salinities (5 less than or equal to S less than or equal to 45), and at t = 25 degreesC. Interactions with anionic components of SSW, considered as single sea salt, are determined by means of a complex formation model. By potentiometric measurements (ISE-H(+) and ISE-F(-) electrodes), the model has been extended to also consider interactions of organotins with carbonate and fluoride ions, which are other important components of seawater. Literature and new values of hydrolysis constants in …

chemistry.chemical_classificationfood.ingredientChemistryHydrolysisSea saltmedia_common.quotation_subjectInorganic chemistryIonic bondingArtificial seawaterSalt (chemistry)General ChemistryOceanographytrialkyltin(IV)SpeciationHydrolysisfoodIonic strengthEnvironmental ChemistrySeawaterIonic strength Protonation protonation constantsHydrolysis; trialkyltin(IV); Natural FluidsNatural FluidsWater Science and Technologymedia_commonMarine Chemistry
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