2017
DOI: 10.1016/j.chemosphere.2017.08.015
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Sequestration of Aluminium(III) by different natural and synthetic organic and inorganic ligands in aqueous solution

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Cited by 28 publications
(15 citation statements)
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“…They assumed that the resolution of the two chromatographic peaks of Al-citrate and Al-transferrin obtained in HPLC analysis became weak when the flow rate of mobile phase was higher than 0.7 mL min −1 . Further confirmation may come from Cardiano et al (2017), who proved that, together with the increasing molecular weight, the number of charges grows and, as a result, the interaction with metal cations also increases [21]. Additionally, the presence of the -OH group increased the possibility of interaction between Al 3+ .…”
Section: Al/citratementioning
confidence: 85%
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“…They assumed that the resolution of the two chromatographic peaks of Al-citrate and Al-transferrin obtained in HPLC analysis became weak when the flow rate of mobile phase was higher than 0.7 mL min −1 . Further confirmation may come from Cardiano et al (2017), who proved that, together with the increasing molecular weight, the number of charges grows and, as a result, the interaction with metal cations also increases [21]. Additionally, the presence of the -OH group increased the possibility of interaction between Al 3+ .…”
Section: Al/citratementioning
confidence: 85%
“…Aluminum can also bond with organic substances-fulvic, humic, malic, tartaric acids, sugars, etc. [21]. It should be mentioned that malic and citrate acids are interesting for aluminum in plants, due to the specific form in which they occur and are toxic in different conditions.…”
Section: Introductionmentioning
confidence: 99%
“…The results of the experiment may be attributable to possible generation of strong complexes due to fluoride ion binding by the components of the test solution, particularly by AlF 3 salts (K inst [AlF 6 ] 3-= 2,1⋅10 -21 ) [31], rather than to formation of non-ionized fluorine compounds due to acidic pH value (e.g., the pH shift of the Lacalut Sensitive ® solution resulted in insignificant changes). Thus, a study of fluoride ion activity in the Lacalut Fresh ® solution suggests that fluoride ions will not be uptaken by tooth tissue and may even be washed away from it; thus, this supplement will have no effect when applied according to the directions for use of the preparation (5-7 drops/100 ml water).…”
Section: Resultsmentioning
confidence: 99%
“…Interestingly, the pH value of the solution dramatically changed: from 4,2 to 6.5 (the pH value of the standard solution of NaF is 7.7). The results of the experiment may be attributable to possible generation of strong complexes due to fluoride ion binding by the components of the test solution, particularly by exafluoroaluminate (AlF 3) salts (K inst [AlF 6 ] 3− = 2.1·10 − 21 ) [31], rather than to formation of non-ionized fluorine compounds due to acidic pH value (e.g., the pH shift of the Lacalut Sensitive® solution resulted in insignificant changes). Thus, a study of fluoride ion activity in the Lacalut Fresh® solution suggests that fluoride ions will not be uptaken by tooth tissue and may even be washed away from it; thus, this supplement will have no effect when applied according to the directions for use of the preparation (5–7 drops/100 ml water).…”
Section: Discussionmentioning
confidence: 99%