Obrazovanje hloridnih i bromidnih kompleksa kobalta(II) u električki nesimetričnim vodenim rastopima soli / Cobalt(II) chloride and bromide complex formation in electrical unsymmetric aqueous molten salts

Vraneš Milan

23 February 2009

<p>U ovoj doktorskoj disertaciji proučavano je građenje kompleksa&nbsp;kobalta(II) sa hloridnim i &nbsp;bromidnim jonima u vodenim&nbsp;rastopima tipa&nbsp;xCa(NO3)2&middot;zH₂O&nbsp;&ndash; (1-x)NH₄NO_3&nbsp;pri različitom sastavu soli (x= 0,3 &ndash; 0,9), različitom sadržaju vode (z= 2,67 &ndash; 6,67) i na različitim temperaturama (45, 55 i 65^oC).</p><p>Istraživanja su imala za cilj proučavanje reakcije građenja&nbsp;kompleksa kobalta(II) sa hloridnim i bromidnim jonima u&nbsp;vodenim rastopima xCa(NO₃)₂&middot;zH₂O &ndash; (1&ndash;x)NH₄NO₃, &nbsp;uticaja&nbsp;temperature, sastava elektrolita i sadržaja vode na proces&nbsp;kompleksiranja, kao i određivanje termodinamičkih parametara&nbsp;koji karakteri&scaron;u reakcije asocijacije u ovim sistemima. Ovakvi&nbsp;rastopi soli su posebno interesantni zbog svoje niske tačke&nbsp;topljenja i visoke latentne toplote topljenja pa se mogu koristiti&nbsp;kao fazno-promenljivi materijali za skladi&scaron;tenje toplotne&nbsp;energije.</p> / <p>In this thesis absorption spectra of cobalt(II) chloride and&nbsp;bromide in calcium nitrate &ndash; ammonium nitrate &ndash; water&nbsp;system of the composition&nbsp; xCa(NO₃)₂&middot;zH₂O &ndash; (1&ndash;x)NH₄NO_3&nbsp;(x= 0.30 - 0.90 and z= 2.67 &ndash; 6.67) have been&nbsp;investigated in the wavelength range 400-800 nm at three&nbsp;different temperatures: 45, 55 and 65^oC.</p><p>Temparature, composition of the melt and water&nbsp;content influence on complex formation reactions between&nbsp;cobalt(II) and halide ions in aqueous xCa(NO₃)₂&middot;zH₂O &ndash;<br />(1&ndash;x)NH₄NO₃ melts have been studied. Thermodynamic&nbsp;parameters for cobalt(II) &ndash; halide association process in&nbsp;different solvents also were determined.</p><p>Investigated systems are interesting because of&nbsp;their high values of latent heat of fusion and low melting&nbsp;points. Due to these reasons, some melts are proposed for&nbsp;<br />heat energy storage materials, usually known as phase&nbsp;change materials (PCM).</p>

[en] STUDY OF CU(II) E AL(III) COMPLEXES WITH PHOSPHOCREATINE (PCR), ADENOSINE 5´ TRIPHOSPHATE (ATP) AND SOME AMINO ACIDS / [pt] ESTUDO DE COMPLEXOS DE COBRE(II) E ALUMÍNIO(III) COM A FOSFOCREATINA (PCR) , O ADENOSINA 5 TRIFOSFATO (ATP) E ALGUNS AMINOÁCIDOS

ANDREA DE MORAES SILVA

23 December 2003

[pt] Foram estudados os sistemas binários de complexos de Cu(II) e Al(III) formados com a fosfocreatina (PCr), o adenosina 5 trifosfato (ATP), a glicina (Gli), a serina (Ser), a tirosina (Tir) e a treonina (Tre) e os sistemas ternários (MLaLb) onde La foi o ATP ou a PCr e o Lb foi um dos quatro aminoácidos. O estudo foi realizado em solução aquosa através da técnica potenciométrica e das técnicas espectroscópicas ultravioleta-visível, Raman, RMN e RPE. As constantes de estabilidade foram determinadas pela potenciometria. Considerando L como um dos aminoácidos, foi observado que todos os complexos CuL são mais estáveis que os complexos AlL correspondentes. Este fato pode ser explicado pela grande afinidade entre o Cu(II) e o grupo amino. Por outro lado, os complexos binários formados com os fosfatos (ATP ou PCr) e o Al(III) apresentaram valores maiores de log b, do que os complexos de Cu(II) correspondentes. Este fato pode ser justificado pela grande afinidade do Al(III) com os átomos de oxigênio dos fosfatos. Pela mesma razão, todos os complexos ternários de Al(III) apresentaram-se mais estáveis do que os de Cu(II) correlacionados. Os valores das constantes de estabilidade dos complexos poderiam ser divididos em dois grupos: o dos complexos binários e o dos complexos ternários, com valores mais altos. Para os complexos de cobre, este comportamento foi confirmado pelo decréscimo dos valores dos comprimentos de onda máximos no espectro de absorção e no aumento no parâmetro Ao à medida que as constantes de estabilidade aumentaram. Os comprimentos de onda máximos dos complexos CuATPLb foram maiores que os dos complexos CuPCrLb, o que indica que o ATP deve coordenar com o Cu(II) através de dois átomos de oxigênio dos fosfatos e a PCr deve coordenar, nos complexos CuPCrLb, através de um átomo de oxigênio e um átomo de nitrogênio. O valor de D log K [log bCuLaLb) - (log bCuLa + log bCuLb)] mostrou que, quando La foi o ATP, os complexos ternários de Cu(II) e de Al(III) foram menos estáveis do que os seus binários respectivos, sugerindo não existir qualquer tipo de interação entre os ligantes. Aplicando o mesmo cálculo para os sistemas de Cu(II) onde La foi a PCr e Lb a serina ou a tirosina, o valor de D log K foi maior do que zero, indicando que estes ligantes favoreceram a formação de complexos ternários mais estáveis, o que pode ser justificado pela interação do grupo OH destes aminoácidos com o grupo livre (carboxilato ou fosfato) da PCr. Para todos os complexos AlPCrLb, onde Lb foi um dos quatro aminoácidos em estudo, os valores das constantes de estabilidade dos ternários foram maiores do que a soma das constantes dos seus binários. Este fato, não pode ser justificado pela interação do grupo OH dos aminoácidos com a PCr, já que a glicina não apresenta este grupo. Provavelmente, a interação ocorre através do oxigênio não coordenado do fosfato da PCr e do hidrogênio do grupo amino do aminoácido. O estudo do sistema Al(III):Ser pela espectroscopia Raman, mostrou que o complexo [Al(Ser)(H2O)4] 2+ é a espécie predominante e a serina atua como ligante bidentado (átomo de N do grupo amino e átomo de oxigênio do carboxilato). Este deve ser o comportamento de todos os complexos de Al(III) com os aminoácidos. / [en] The binary systems of Cu(II) and Al(III) complexes with adenosine triphosphate (ATP), phosphocreatine (PCr), glycine (gly), serine (Ser), tyrosine (Tyr) and threonine (Thr) and the ternary systems where La was ATP or PCr and Lb was one of the four amino acids, were investigated. The study was performed in aqueous solution using potentiometry, ultraviolet visible, Raman, NMR and EPR spectroscopies. The stability constants of the complexes were determined by potentiometry. When L is one of the amino acids, it can be observed that all the CuL complexes are more stable than the correspondent AlL complexes. This can be explained by the greater affinity between the Cu(II) and the amino group. On the other hand, the binary complexes formed by one of the phosphates (ATP or PCr) and Al(III) have greater values of log b than the correspondent complexes of Cu(II). This can be explained by the greater affinity of Al(III) ion to the oxygen atoms of the phosphates. For this same reason, all the ternary complexes of Al(III) are more stable than the Cu(II) ones. The values of the stability constants of the complexes could be divided in two groups: one of the binary complexes and the second of the ternary complexes, with higher values. For the Cu(II) complexes this behavior was confirmed by the decreasing of the maximum wavelength in the absorption spectra and the increasing of the A0 parameter as the stability constants increase. The maximum wavelength of the CuATPLb complexes were greater than those of the CuPCrLb complexes and this means that ATP must be bound to Cu(II) ion through two oxygen atoms of the phosphates, whereas in CuPCrLb complexes, PCr is bound through one oxygen atom and one nitrogen atom and the amino acid is the same. Values of DlogK (logbCuLaLb - (logbCuLa+ logbCuLb) showed that when La was ATP, the ternary complexes of Cu(II) and Al(III) were less stable than the binary ones suggesting that it does not occur any interaction between the ligands in the ternary complexes. When La was PCr, the stability constants of the Cu(II) complexes where Lb was Ser or Tyr were greater. This showed that these ligands favored more stable ternary complexes and this must be due to the interaction of the OH group of these amino acids and the phosphate or carboxylate of PCr. For the AlPCrLb complexes, when Lb was one of the four amino acids, the stability constants of the complexes were greater. This shows that in this case, the interaction cannot be between the OH groups of the amino acid since glycine does not have any OH group. Probably the interaction occur through the non coordinated oxygen of the phosphate of PCr and the hydrogen of the amino group of the aminoacid. The study of the sistem Al(III):Ser by Raman spectroscopy, showed that [Al(Ser)(H2O)4]2+is the predominant species and that Ser acts as bidentate ligand (N atom of the amino group and O atom of the carboxylate). This must be the behavior of all the complexes of Al(III) and the amino acids.

[pt] COMPLEXOS BINARIOS

[en] BINARY COMPLEXES

[pt] COMPLEXOS TERNARIOS

[en] TERNARY COMPLEXES

[pt] ALUMINIO (III)

[en] ALUMINIUM (III)

[pt] COBRE(II)

[en] COPPER (II)

[pt] FOSFOCREATINA

[en] PHOSPHOCREATINE

[pt] AMINOACIDOS

[en] AMINO ACIDS

[pt] CONSTANTES DE ESTABILIDADE

[en] STABILITY CONSTANTS

Применение электрохимических методов для исследования антиоксидантных свойств полифенольных соединений : магистерская диссертация / Application of electrochemical methods for the study of antioxidant properties of polyphenolic compounds

Радостева, Е. Р., Radosteva, E. R.

January 2022

Объектами исследования являются полифенольные антиоксиданты. Целью выпускнoй квалификационной работы является исследование антиоксидантных свойств полифенольных соединений с позиции механизмов их действия. В работе рассмотрены причины возникновения окислительного стресса, система антиоксидантной защиты и существующие методы исследования антиоксидантных свойств соединений. В процессе работы предложенными методами оценена хелатирующая способность полифенолов по отношению к ионам железа (II) и (III), исследована зависимость антиоксидантных свойств от рН, определены значения условных констант устойчивости и их зависимость от рН. / The objects of research are polyphenolic antioxidants. The purpose of the final qualifying work is to study the antioxidant properties of polyphenolic compounds from the perspective of their mechanisms of action. The paper considers the causes of oxidative stress, the system of antioxidant protection and existing methods for studying the antioxidant properties of compounds. In the process of work, the proposed methods evaluated the chelating ability of polyphenols with respect to iron (II) and (III) ions, investigated the dependence of antioxidant properties on pH, determined the values of conditional stability constants and their dependence on pH.

АНТИОКСИДАНТ

ПОЛИФЕНОЛЫ

ХЕЛАТИРОВАНИЕ

ПОТЕНЦИОМЕТРИЯ

LIPID PEROXIDATION

ANTIOXIDANTS

POLYPHENOLS

CHELATION

POTENTIOMETRY

CYCLIC VOLTAMMETRY

ANTIOXIDANT CAPACITY

STABILITY CONSTANTS

MASTER'S THESIS

Potenciální kontrastní látky pro MRI založené na komplexech manganu(II) / Potential contrast agents for MRI based on manganese(II) complexes

Drahoš, Bohuslav

January 2011

The thesis is focused on the synthesis and characterization of novel Mn2+ complexes as alternative to Gd3+ chelates which are wide-spread contrast agents in Magnetic Resonance Imaging (MRI). In the perspective to find suitable chelators of Mn2+ , three groups of pentadentate ligands with different size of macrocylic cavity, different donor atoms and number of pendant arms containing various functional groups have been investigated. Coordination numbers of 6 or 7 were found in the crystal structure of the Mn2+ complexes enabling binding of one or two water molecules in the first coordination sphere. The direct water coordination causes a decrease in the complex stability and thus, the thermodynamic stability of investigated chelates is lower than that of polyaminocarboxylate complexes and their dissociation is very fast in comparison to [Mn(nota)] and [Mn(dota)]2- . The studied Mn2+ complexes do not undergo oxidation in air except for complexes with 12-membered ligands which are oxidized to Mn3+ species. The proton relaxivities of the bishydrated complexes are two times higher than those for monohydrated complexes and are comparable to those of commercial contrast agents based on Gd3+ complexes. Variable-temperature 17 O NMR data revealed that the water exchange varies from slow to intermediate or...

Synthese und Komplexbildungseigenschaften ausgewählter Maillard-Reaktionsprodukte / Synthesis and complex formation characteristics of selected Maillard reaction products

Seifert, Steffen

28 January 2009

Zahlreiche Studien belegen, dass Maillard-Reaktionsprodukte (MRP) in vivo einen Einfluss auf den physiologischen Metallionenhaushalt haben können. Da bisher noch keine Korrelation zwischen dem Entstehen von definierten MRP und einem erhöhten Metallionenbindungsvermögen ermittelt werden konnte, war es das Ziel dieser Arbeit, die Komplexbildungseigenschaften der ausgewählten MRP Nε-Carboxymethyllysin, Isomaltol und Maltosin sowie deren Strukturanaloga Maltol, Deferipron, Mimosin und Pyridosin mit den physiologisch relevanten Metallionen Cu(II), Zn(II), Fe(III), Al(III) und Mn(II) zu untersuchen. Dazu wurden die MRP Nε-Carboxymethyllysin und Maltosin sowie die parallel untersuchten Substanzen Pyridosin, Maltosin-3-benzylether, Nα-Hippuryl- und Nα-Acetylmaltosin in ausreichender Menge und Reinheit synthetisiert. Dabei gelang es, für Maltosin und Pyridosin neue und effiziente Synthesewege zu entwickeln, bei welchen zum ersten Mal beide Substanzen gezielt aufgebaut wurden. Die Komplexbildungskonstanten der Liganden mit den Metallionen wurden pH-potentiometrisch bestimmt (I[KNO3] = 0,15 M; θ = 25 °C). Durch die Auswertung der Protonierungskonstanten der gebildeten Komplexe und das Vermessen geeigneter Derivate konnten für die untersuchten Komplexe zusätzlich die Koordinationsstellen der Liganden aufgeklärt werden. Die Untersuchungen zu den Komplexbildungseigenschaften bestätigten erstmals die Vermutung, dass MRP in der Lage sind, Metallionen zu binden. Dabei wurde weiterhin ermittelt, dass die Bindung von Cu(II) durch Nε-Carboxymethyllysin und von Fe(III), Al(III) und Cu(II) durch Maltosin durchaus von physiologischer Relevanz sind. Die Bedeutung der Ergebnisse wurde qualitativ durch Versuche mit Maltosin-derivatisiertem Rinderserumalbumin unterstrichen. Als besonderes Ergebnis der Arbeit ist herauszustellen, dass das MRP Maltosin und die Verbindung Pyridosin deutlich stabilere Komplexe mit Fe(III) bilden als das zur Fe(III)-Chelattherapie eingesetzte Medikament Deferipron. Diese festgestellte Eigenschaft bietet interessante Perspektiven für zukünftige Studien zur möglichen Anwendung von z. B. Maltosin als Pharmakon. / Several studies show that Maillard reaction products (MRP) may influence the physiological metal ion balance. But none of these studies prove a correlation between the formation of defined MRP and an enhanced metal ion binding. Therefore it was the aim of this work to investigate the complex formation characteristics of the selected MRP Nε-carboxymethyllysine, isomaltol and maltosine as well as the structural analogues maltol, deferiprone, mimosine and pyridosine with the physiological relevant metal ions Cu(II), Zn(II), Fe(III), Al(III) and Mn(II). For that purpose the MRP Nε-carboxymethyllysine and maltosine plus the parallel analysed substances pyridosine, maltosine-3-benzylether, Nα-hippuryl- and Nα-acetylmaltosine were synthesised. Thereby new and efficient syntheses for maltosine and pyridosine were developed. The stability constants of the ligands with the metal ions were determined by pH-potentiometry (I(KNO3) = 0,15 M; θ = 25 °C). Furthermore the donor atoms within the formed complexes were determined by the evaluation of the protonation constants of the formed complexes and by the analysis of adequate derivatives. The studies to the complex formation characteristics confirm for the first time the assumption, that MRP are able to form stable complexes with metal ions. Withal it was ascertained that the coordination of Cu(II) by Nε-carboxymethyllysine and of Fe(III), Al(III) and Cu(II) by maltosine may be of physiological relevance. The significance of the results was pointed out by experiments with maltosine derivatised bovine serum albumine. The fact that the MRP maltosine and the compound pyridosine form more stable complexes with Fe(III) as the medicament for the Fe(III) chelate therapy deferiprone is a particular result of this work. This property affords interesting perspectives for future studies about a possible appliance of e.g. maltosine as pharmaceutical.

ddc:540

rvk:VK 5807

Synthese und Komplexbildungseigenschaften ausgewählter Maillard-Reaktionsprodukte

Seifert, Steffen

16 January 2009

Zahlreiche Studien belegen, dass Maillard-Reaktionsprodukte (MRP) in vivo einen Einfluss auf den physiologischen Metallionenhaushalt haben können. Da bisher noch keine Korrelation zwischen dem Entstehen von definierten MRP und einem erhöhten Metallionenbindungsvermögen ermittelt werden konnte, war es das Ziel dieser Arbeit, die Komplexbildungseigenschaften der ausgewählten MRP Nε-Carboxymethyllysin, Isomaltol und Maltosin sowie deren Strukturanaloga Maltol, Deferipron, Mimosin und Pyridosin mit den physiologisch relevanten Metallionen Cu(II), Zn(II), Fe(III), Al(III) und Mn(II) zu untersuchen. Dazu wurden die MRP Nε-Carboxymethyllysin und Maltosin sowie die parallel untersuchten Substanzen Pyridosin, Maltosin-3-benzylether, Nα-Hippuryl- und Nα-Acetylmaltosin in ausreichender Menge und Reinheit synthetisiert. Dabei gelang es, für Maltosin und Pyridosin neue und effiziente Synthesewege zu entwickeln, bei welchen zum ersten Mal beide Substanzen gezielt aufgebaut wurden. Die Komplexbildungskonstanten der Liganden mit den Metallionen wurden pH-potentiometrisch bestimmt (I[KNO3] = 0,15 M; θ = 25 °C). Durch die Auswertung der Protonierungskonstanten der gebildeten Komplexe und das Vermessen geeigneter Derivate konnten für die untersuchten Komplexe zusätzlich die Koordinationsstellen der Liganden aufgeklärt werden. Die Untersuchungen zu den Komplexbildungseigenschaften bestätigten erstmals die Vermutung, dass MRP in der Lage sind, Metallionen zu binden. Dabei wurde weiterhin ermittelt, dass die Bindung von Cu(II) durch Nε-Carboxymethyllysin und von Fe(III), Al(III) und Cu(II) durch Maltosin durchaus von physiologischer Relevanz sind. Die Bedeutung der Ergebnisse wurde qualitativ durch Versuche mit Maltosin-derivatisiertem Rinderserumalbumin unterstrichen. Als besonderes Ergebnis der Arbeit ist herauszustellen, dass das MRP Maltosin und die Verbindung Pyridosin deutlich stabilere Komplexe mit Fe(III) bilden als das zur Fe(III)-Chelattherapie eingesetzte Medikament Deferipron. Diese festgestellte Eigenschaft bietet interessante Perspektiven für zukünftige Studien zur möglichen Anwendung von z. B. Maltosin als Pharmakon. / Several studies show that Maillard reaction products (MRP) may influence the physiological metal ion balance. But none of these studies prove a correlation between the formation of defined MRP and an enhanced metal ion binding. Therefore it was the aim of this work to investigate the complex formation characteristics of the selected MRP Nε-carboxymethyllysine, isomaltol and maltosine as well as the structural analogues maltol, deferiprone, mimosine and pyridosine with the physiological relevant metal ions Cu(II), Zn(II), Fe(III), Al(III) and Mn(II). For that purpose the MRP Nε-carboxymethyllysine and maltosine plus the parallel analysed substances pyridosine, maltosine-3-benzylether, Nα-hippuryl- and Nα-acetylmaltosine were synthesised. Thereby new and efficient syntheses for maltosine and pyridosine were developed. The stability constants of the ligands with the metal ions were determined by pH-potentiometry (I(KNO3) = 0,15 M; θ = 25 °C). Furthermore the donor atoms within the formed complexes were determined by the evaluation of the protonation constants of the formed complexes and by the analysis of adequate derivatives. The studies to the complex formation characteristics confirm for the first time the assumption, that MRP are able to form stable complexes with metal ions. Withal it was ascertained that the coordination of Cu(II) by Nε-carboxymethyllysine and of Fe(III), Al(III) and Cu(II) by maltosine may be of physiological relevance. The significance of the results was pointed out by experiments with maltosine derivatised bovine serum albumine. The fact that the MRP maltosine and the compound pyridosine form more stable complexes with Fe(III) as the medicament for the Fe(III) chelate therapy deferiprone is a particular result of this work. This property affords interesting perspectives for future studies about a possible appliance of e.g. maltosine as pharmaceutical.

info:eu-repo/classification/ddc/540

ddc:540