TY  - JOUR
AU  - Petrović, Đorđe
AU  - Jakovljević, Ivan
AU  - Joksović, Ljubinka G.
AU  - Szecsenyi, Katalin Meszaros
AU  - Durdevic, Predrag
PY  - 2016
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/276
AB  - Hydrolysis reactions of YCl3 aqueous solutions were studied by potentiometric titrations at 310 K in the pH range ca.3-9 and total Y3+ ion concentration range 0.5-10.0 mmol/dm(3). The experimental data were evaluated with the aid of the Hyperquad2006 suite of programs, which indicated the formation of the following hydrolytic complexes (log conc. overall stability constants beta(p,q) defined as beta(p,q) = M-p(OH)(q)[H](q)/[M](p)), Y(OH)(2+) (-7.71(2)); Y(OH)(2)(+) (-16.42(2)); Y(OH)(3) (-26.01(3)); Y-2(OH)(2)(4+) (-14.23(4)); Y-3(OH)(5)(2+) (-34.20 (4)); Y-4(OH)(6)(2+) (-37.10(5)). The hydrolysis of the Y3+ ion was also monitored by electrospray ionization ion-trap mass spectrometry (ESI-MS) in the pH range 2.63-7.10. The influence of the sample cone voltage on the product distribution was significant, indicating the contribution of ion source fragmentation reactions. The optimal cone voltage was set to 70 V for cationic and 100 V for anionic spectra. The cationic and anionic ESI mass spectra of the Y3+ solutions produced strong evidence for the presence of a variety of monomeric and polymeric hydrolytic complexes. The Cl- ion appeared to be a strong competitor to the OH- ion for the oxo-yttrium core. The hydrolytic precipitation reactions with NaOH or urea as precipitating agents were studied. The obtained precipitates were characterized by the potentiometric technique, elemental analysis, thermal analysis (TG-DSC), infrared spectroscopy, X-ray diffractions and the SEM technique. Hydrothermal synthesis of the precipitate in an autoclave at T= 420 K and P = 10 bar with NaOH as the precipitating agent produced a crystalline precipitate in the form of hexagonal needles (P6(3)/m space group). At atmospheric pressure only an amorphous precipitate was produced with both precipitating agents. The concentration solubility product K-so* of Y(OH)(3) was evaluated from the potentiometric titrations curves and logK(so)* = -22.85(4). The synthesized precipitate with NaOH as a precipitating agent had a composition of Y(OH)(3)center dot 2H(2)O, while the amorphous precipitate obtained with urea had a composition of Y-2(OH)(2)(CO3)(2)center dot 3H(2)O. (C) 2015 Elsevier Ltd. All rights reserved.
T2  - Polyhedron
T1  - Study of the hydrolytic properties of the trivalent Y-ion in chloride medium
VL  - 105
SP  - 1
EP  - 11
DO  - 10.1016/j.poly.2015.11.047
ER  - 

@article{
author = "Petrović, Đorđe and Jakovljević, Ivan and Joksović, Ljubinka G. and Szecsenyi, Katalin Meszaros and Durdevic, Predrag",
year = "2016",
abstract = "Hydrolysis reactions of YCl3 aqueous solutions were studied by potentiometric titrations at 310 K in the pH range ca.3-9 and total Y3+ ion concentration range 0.5-10.0 mmol/dm(3). The experimental data were evaluated with the aid of the Hyperquad2006 suite of programs, which indicated the formation of the following hydrolytic complexes (log conc. overall stability constants beta(p,q) defined as beta(p,q) = M-p(OH)(q)[H](q)/[M](p)), Y(OH)(2+) (-7.71(2)); Y(OH)(2)(+) (-16.42(2)); Y(OH)(3) (-26.01(3)); Y-2(OH)(2)(4+) (-14.23(4)); Y-3(OH)(5)(2+) (-34.20 (4)); Y-4(OH)(6)(2+) (-37.10(5)). The hydrolysis of the Y3+ ion was also monitored by electrospray ionization ion-trap mass spectrometry (ESI-MS) in the pH range 2.63-7.10. The influence of the sample cone voltage on the product distribution was significant, indicating the contribution of ion source fragmentation reactions. The optimal cone voltage was set to 70 V for cationic and 100 V for anionic spectra. The cationic and anionic ESI mass spectra of the Y3+ solutions produced strong evidence for the presence of a variety of monomeric and polymeric hydrolytic complexes. The Cl- ion appeared to be a strong competitor to the OH- ion for the oxo-yttrium core. The hydrolytic precipitation reactions with NaOH or urea as precipitating agents were studied. The obtained precipitates were characterized by the potentiometric technique, elemental analysis, thermal analysis (TG-DSC), infrared spectroscopy, X-ray diffractions and the SEM technique. Hydrothermal synthesis of the precipitate in an autoclave at T= 420 K and P = 10 bar with NaOH as the precipitating agent produced a crystalline precipitate in the form of hexagonal needles (P6(3)/m space group). At atmospheric pressure only an amorphous precipitate was produced with both precipitating agents. The concentration solubility product K-so* of Y(OH)(3) was evaluated from the potentiometric titrations curves and logK(so)* = -22.85(4). The synthesized precipitate with NaOH as a precipitating agent had a composition of Y(OH)(3)center dot 2H(2)O, while the amorphous precipitate obtained with urea had a composition of Y-2(OH)(2)(CO3)(2)center dot 3H(2)O. (C) 2015 Elsevier Ltd. All rights reserved.",
journal = "Polyhedron",
title = "Study of the hydrolytic properties of the trivalent Y-ion in chloride medium",
volume = "105",
pages = "1-11",
doi = "10.1016/j.poly.2015.11.047"
}

Petrović, Đ., Jakovljević, I., Joksović, L. G., Szecsenyi, K. M.,& Durdevic, P.. (2016). Study of the hydrolytic properties of the trivalent Y-ion in chloride medium. in Polyhedron, 105, 1-11.
https://doi.org/10.1016/j.poly.2015.11.047

Petrović Đ, Jakovljević I, Joksović LG, Szecsenyi KM, Durdevic P. Study of the hydrolytic properties of the trivalent Y-ion in chloride medium. in Polyhedron. 2016;105:1-11.
doi:10.1016/j.poly.2015.11.047 .

Petrović, Đorđe, Jakovljević, Ivan, Joksović, Ljubinka G., Szecsenyi, Katalin Meszaros, Durdevic, Predrag, "Study of the hydrolytic properties of the trivalent Y-ion in chloride medium" in Polyhedron, 105 (2016):1-11,
https://doi.org/10.1016/j.poly.2015.11.047 . .

TY  - JOUR
AU  - Jakovljević, Ivan
AU  - Petrović, Đorđe
AU  - Joksović, Ljubinka G.
AU  - Lazarević, Ivan
AU  - Durdevic, Predrag
PY  - 2013
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/5824
AB  - The speciation of Al3+, Gd3+ and Y3+ ions in human plasma has been studied by computer simulation using the program HySS2009. A literature computer model of blood plasma was updated and comprised 9 metals, 43 ligands and over 6100 complexes. To this model critically evaluated data of Al3+, Gd3+ and Y3+ constants with blood plasma ligands have been added. Low molecular mass (LMM) speciation of Al3+ ion strongly depends upon the chosen equilibrium model of the metal - phosphate and metal - citrate systems. The obtained computer simulation of LMM speciation data of Al3+ ion were: AlPO(4)Cit (40.7%), AlPO(4)CitOH (22.9%), AlCitOH (19.2%) and AlPO4(OH) (12.7%) (% of total LMM Al species pool); for Gd3+ ion: GdAspCit (30%) and GdCit(OH)(2) (20%) (% of total [Gd]) and for Y3+ ion: YCit (48%), Y(CO3)(2) (32%) and Y(CO3) (11%) (% of total [Y]). Citrate appears as the important binding and mobilizing ligand for all examined ions, while the dominating species are the ternary ones.
T2  - Acta Chimica Slovenica
T1  - Computer Simulation of Speciation of Trivalent Aluminum, Gadolinium and Yttrium Ions in Human Blood Plasma
VL  - 60
IS  - 4
SP  - 861
EP  - 869
UR  - https://hdl.handle.net/21.15107/rcub_vinar_5824
ER  - 

@article{
author = "Jakovljević, Ivan and Petrović, Đorđe and Joksović, Ljubinka G. and Lazarević, Ivan and Durdevic, Predrag",
year = "2013",
abstract = "The speciation of Al3+, Gd3+ and Y3+ ions in human plasma has been studied by computer simulation using the program HySS2009. A literature computer model of blood plasma was updated and comprised 9 metals, 43 ligands and over 6100 complexes. To this model critically evaluated data of Al3+, Gd3+ and Y3+ constants with blood plasma ligands have been added. Low molecular mass (LMM) speciation of Al3+ ion strongly depends upon the chosen equilibrium model of the metal - phosphate and metal - citrate systems. The obtained computer simulation of LMM speciation data of Al3+ ion were: AlPO(4)Cit (40.7%), AlPO(4)CitOH (22.9%), AlCitOH (19.2%) and AlPO4(OH) (12.7%) (% of total LMM Al species pool); for Gd3+ ion: GdAspCit (30%) and GdCit(OH)(2) (20%) (% of total [Gd]) and for Y3+ ion: YCit (48%), Y(CO3)(2) (32%) and Y(CO3) (11%) (% of total [Y]). Citrate appears as the important binding and mobilizing ligand for all examined ions, while the dominating species are the ternary ones.",
journal = "Acta Chimica Slovenica",
title = "Computer Simulation of Speciation of Trivalent Aluminum, Gadolinium and Yttrium Ions in Human Blood Plasma",
volume = "60",
number = "4",
pages = "861-869",
url = "https://hdl.handle.net/21.15107/rcub_vinar_5824"
}

Jakovljević, I., Petrović, Đ., Joksović, L. G., Lazarević, I.,& Durdevic, P.. (2013). Computer Simulation of Speciation of Trivalent Aluminum, Gadolinium and Yttrium Ions in Human Blood Plasma. in Acta Chimica Slovenica, 60(4), 861-869.
https://hdl.handle.net/21.15107/rcub_vinar_5824

Jakovljević I, Petrović Đ, Joksović LG, Lazarević I, Durdevic P. Computer Simulation of Speciation of Trivalent Aluminum, Gadolinium and Yttrium Ions in Human Blood Plasma. in Acta Chimica Slovenica. 2013;60(4):861-869.
https://hdl.handle.net/21.15107/rcub_vinar_5824 .

Jakovljević, Ivan, Petrović, Đorđe, Joksović, Ljubinka G., Lazarević, Ivan, Durdevic, Predrag, "Computer Simulation of Speciation of Trivalent Aluminum, Gadolinium and Yttrium Ions in Human Blood Plasma" in Acta Chimica Slovenica, 60, no. 4 (2013):861-869,
https://hdl.handle.net/21.15107/rcub_vinar_5824 .