Vliv reaktivity na transport kovových iontů v huminových gelech / Influence of reactivity on transport of metal ions in humic gels

Smitalová, Michaela

January 2013

This diploma thesis deals with copper(II) ions diffusion in the humic hydrogels. The hydrogels were prepared from several samples of humic acids using different method and their isolation conditions from the original matrix. A selective blocking of functional groups (COOH, OH) was performed in the selected samples of humic acids. These reactive groups were selectively blocked using methylation agent trimethylsilyl-diazomethane. The success of performed methylation and functional groups blocking was verified using a FT-IR spectroscopy. There was carried out the set of diffusion experiments. The experimental arrangement was selected to enable an instantaneous planar source met-hod for data processing. The basis of this method was to determine the copper(II) ions con-centration distribution in the hydrogels. The method consists of slicing of the hydrogels after the diffusion experiments, extraction of the copper ions in the solution and determina-tion of concentration in the extracts from individual slices using UV-VIS spectroscopy. Based on the experimental data the effective diffusion coefficients were determined. The resulting values include both the effect of hydrogels structure and the effect of the reaction between Cu(II) ions and humic acids. There were prepared gels with defined portion of blocked functional groups for selected samples, which allowed to investigate the effect of reactivity on the copper ions diffusion without the significant changes in the gel structure (porosity). The blocking of functional groups reflected in a lower values of diffusion coefficients in comparison to the gels prepared from unmodified humic acids as follows. There was also confirmed the effect of humic acids isolation procedure and their properties on the diffusivity.

Spectroscopic Examination of the Catalytic Decomposition of hydrogen Peroxide by a Copper (II) Complex of a Dissymmetric Schiff Base and an Imidazole Derivative.

Davis, John D., Jr.

11 August 2003

Previous studies involving copper (II) complexed with a dissymmetric Schiff base and imidazole derivatives had identified catalase activity of these complexes towards H2O2. Reactions such as this are of great interest due to the important role of copper-based complexes in biological systems. Our research has been conducted to add to the base of knowledge regarding the efforts of other researchers to investigate copper complexes that exhibit similar reactivity as copper-based proteins towards dioxygen. The copper complex chosen for this study contained a tri-dentate Schiff base adduct which, when complexed with an imidazole derivative, limited the manner in which peroxo adducts could bind while providing distinct spectral peaks which were used to conduct kinetic studies. Our results indicate a reaction mechanism by which the role of the complexed copper (II) ion is to activate the peroxo adduct for decomposition through reactions with other peroxide molecules, dioxygen, and water.

Catalase

Catalyst

Copper (II) Complexes

Hydrogen Peroxide

Chemistry

Physical Sciences and Mathematics

Quenching of the Fluorescence of Tris (2 2-Bipyridine) Ruthenium(II) [Ru(bipy)3]2+ by a Dimeric Copper(II) Complex.

Cummins, Kevin E.

17 August 2011

The quenching of the [Ru(bipy)3]2+ by Cu2L2+ was studied and the data were plotted with the Stern-Volmer equation. The plot showed a break and was divided into 2 regions, <0.5 and >0.5 Cu2L2+: [Ru(bipy)3]2+ molar ratio. Quenching above the 0.5 Cu2L2+: [Ru(bipy)3]2+ molar ratio was slower (330 x 10-6 M-1s-1) than the quenching rate reaction below 0.5 ratio (387 x 10-6 M-1s-1). With Cu2L2+ being a dimeric complex the break and differences in the quenching reaction rates can be explained in terms of the stoichiometry. When the Cu2L2+: [Ru(bipy)3]2+ ratio is < 0.5, then each [Ru(bipy)3]2+ can interact with 1 Cu2L2+ dimer. At 0.5 then there is exactly a 1:1 ratio RuII : CuII. Above the 0.5 ratio the [Ru(bipy)3]2+ can interact with maybe only one of the Cu2L2+'s in the dimer, or with a [Ru(bipy)3]2+: Cu2L2+ unit, so the quenching is less efficient.

Fluorescence

Dimeric Copper(II)

[Ru(bipy)3]2+

Ruthenium

Quenching

Chemistry

Inorganic Chemistry

Physical Sciences and Mathematics

Study on Methods of Simultaneous Multi-Component Analysis.

Ashie, Jennifer Bernice

13 December 2008

Many new instrumentation and different instrumental techniques have been developed to deal with increasing complexity of samples encountered. Many researchers also have coupled these instrumental techniques with chemometric algorithms to assist in the quantitative analysis of multi-component samples in the hope of alleviating the need of tedious separation and cleanup procedures. These newer chemometric procedures tend to be complex and difficult to understand and implement and are successful under different circumstances and conditions. In this study, we start from the very simple beginning and examine the factors that can present difficulties with obtaining the correct results and observe how the system behaves so as to find a better and simpler chemometric procedure to perform mixture quantitative analysis. We have used simulated and actual experimental data obtained from a UV-VIS spectrophotometric measurement of metal complexes to conduct the study. Well understood and defined systems tend to give good results. The main obstacle has been, and still is, interferences in spectral information one gets from the measurement.

UV-visible Spectrophotometry

Copper(II)

Iron(III)

Multi-Component

Analytical Chemistry

Chemistry

Physical Sciences and Mathematics

Lifetimes and Oscillator Strengths for Ultraviolet Transitions in Singly Ionized Copper

Brown, Michael Scott

16 June 2009

No description available.

Astrophysics

Physics

oscillator strengths

lifetimes

singly ionized copper

Copper II

UV atomic physics

[pt] COMPLEXOS DE COBRE(II) DERIVADOS DE LIGANTES N-ACIL-HIDRAZÔNICOS COMO ALTERNATIVA AOS COMPOSTOS DE PLATINA: SÍNTESE, CARACTERIZAÇÃO, ESTUDOS EM SOLUÇÃO E POTENCIAL FARMACOLÓGICO / [en] COPPER(II) COMPLEXES DERIVED FROM NACYLHYDRAZONIC LIGANDS AS AN ANTITUMOR ALTERNATIVE TO PLATINUM COMPOUNDS: SYNTHESIS, CHARACTERIZATION, STUDIES IN SOLUTION AND PHARMACOLOGICAL POTENTIAL

FAGNER DA SILVA MOURA

13 January 2025

[pt] Câncer pode ser considerado um conjunto de diversas doenças, que unidas, levam desequilíbrio aos tecidos dos quais se originaram. A gênese do tumor está associada, em geral, as mutações que as células sofrem e se acumulam em seu interior. A célula modificada adquire maior capacidade de proliferação, sofrendo expansão clonal transmitindo seus genes para as células filhas. A proliferação desordenada é capaz de formar uma massa sólida e intrincada de células alteradas dentro do órgão onde o tumor foi originado. Os tratamentos atuais contra o câncer são voltados para o diagnóstico do tipo de câncer, sua localização e gravidade, orientação, a seleção de melhores opções de tratamento e o seu progresso. Na segunda metade da década de 1960, Rosenberg descobriu a atividade antitumoral da cisplatina, motivando a busca por novos agentes anticancerígenos baseados em metais. Apesar disso, poucos medicamentos anticancerígenos inorgânicos se mostraram promissores devido a problemas de toxicidade. Diante desse escopo, derivados N-acilhidrazônicos e complexos de cobre(II) têm sido sugeridos como compostos promissores para atingir esse objetivo. Os complexos de cobre(II) têm sido apresentados na literatura como uma alternativa promissora aos compostos anticancerígenos de platina, uma vez que o cobre é um elemento traço essencial com menor efeito colateral. Nas últimas décadas, muitos compostos de coordenação de cobre(II) que apresentam atividade antitumoral foram relatados como promissores compostos ativos contra células tumorais, alguns deles avançando para testes clínicos, como é o caso das Casiopeínas (marca registrada), apresentando diferentes formas de interação com a célula. Diante disso, nosso grupo de pesquisa possui experiência em complexos de cobre(II) com atividade antitumoral já reportados. Além disso, ligantes N,O-doadores N-acilhidrazônicos livres e coordenados revelaram atividade biológica como agentes anticâncer. Isto motivou o design de uma nova geração de ligantes similares, na tentativa de potencializar a atividade antitumoral. Este trabalho compreende a síntese, obtenção e caracterização completa de ligantes inéditos N-acilhidrazônicos que foram totalmente caracterizados, assim como seus novos complexos de cobre (II) obtidos a partir de três sais de partida diferentes, o estudo da reatividade, propriedades espectroscópicas, eletroquímicas e antiproliferativas de uma nova geração de complexos mono e binucleares de cobre(II) derivados desses ligantes N-acilhidrazônicos. Dos dez complexos sintetizados, seis deles apresentaram reatividade frente à HSA (albumina sérica humana), e três complexos tiveram sua atividade antiproliferativa avaliada, apresentando atividade maior que a cisplatina. / [en] Cancer can be considered a collection of various diseases that collectively lead to an imbalance in the tissues from which they originate. The genesis of tumors is generally associated with mutations that accumulate within cells. The altered cell acquires an increased capacity of proliferation, undergoing clonal expansion and transmitting its genes to daughter cells. Disordered proliferation can form a solid and intricate mass of altered cells within the organ where the tumor originated. Current cancer treatments focus on diagnosing the type of cell, its location and severity, guidance, selecting the best treatment options, and monitoring the progress. In the latter half of the 1960s, Rosenberg discovered the antitumor activity of cisplatin, which spurred the search for new metal-based anticancer agents. Despite this, few inorganic anticancer drugs have shown auspicious due to toxicity issues. In this context, N-acylhydrazones and their copper(II) complexes have been suggested as promising compounds for achieving this objective. Copper(II) complexes have been presented in the literature as an alternative to platinum-based anticancer compounds, given that copper is an essential trace element with fewer side effects. In recent decades, many copper(II) coordination compounds exhibiting antitumor activity have been reported as promising active compounds against tumor cells, with some advancing to clinical trials, such as Casiopeínas (trademark), which interact with cells in various ways. Our research group has experience with copper(II) complexes exhibiting reported antitumor activity. Additionally, N,O-donor N-acylhydrazone ligands, both free and coordinated, have demonstrated biological activity as anticancer agents. This has motivated the design of a new generation of similar ligands to enhance antitumor activity. This work encompasses the synthesis, acquisition, and complete characterization of novel N-acylhydrazone ligands, which were thoroughly characterized, as well as their new copper(II) complexes obtained from three different starting salts. The study includes the reactivity, spectroscopic, electrochemical, and antiproliferative properties of a new generation of mono- and binuclear copper(II) complexes derived from these N-acylhydrazone ligands. Of the ten synthesized complexes, six showed reactivity towards human serum albumin (HSA), and three complexes derived from the ligand containing furan as a substituent had their antiproliferative activity evaluated, exhibiting greater activity than cisplatin.

[pt] COMPLEXO

[pt] HIDRAZONA E COBRE II

[pt] ANTITUMORAL

[en] COMPLEX

[en] HYDRAZONA AND COPPER II

[en] ANTITUMOR

Studies On The Photo-induced DNA Cleavage Activity Of α-Amino Acid Copper Complexes Having Phenanthroline Bases

Patra, Ashis Kumar

12 1900

Photo sensitizers showing visible light induced DNA cleavage activity are of current importance for medicinal applications related to photodynamic therapy (PTD) considering greater skin penetration of light near 700 nm. While organic molecules and complexes of 4d-5d metal ions are extensively studied for their DNA photo-damage properties in UV and visible light, the chemistry of 3D metal complexes showing visible light-induced DNA cleavage activity is relatively unexplored efforts have been made in this thesis work to design new ternary copper (II) complexes having a-amino acids Such copper (II) complexes with tunable coordination geometry could find potential applications in PDT. Ternary Copper (II) complexes containing L-methionine, S-methy1-L-cysteine and phenanthroline bases are prepared and characterized. They display DNA binding and visible light induced DNA cleavage activity. An enhancement of the DNA cleavage activity is observed for analogous ternary copper (II) complexes contained L-lysine with a pendant cationic amine moiety as a photo-induced DNA Cleavage activity using binary and ternary copper (II) complexes of L-arginine and phenanthroline bases. We have observed AT selective DNA binding and visible light –induced DNA cleavage activity. The crescent-shaped bis-arginine Copper (II) complex mimics the natural antiviral antibiotic netropsin. T o investigate the role of the pendant groups of the amino acids, we have explored the DNA binding and DNA cleavage activity of analogues L-glutamine and L-asparagine complexes. We have prepared ternary copper (II) complexes containing two photosensitizers, viz., L-tryptophan (L-trp) and dipyridoquininoxaline/dipyridophenazine to achieve double strand breaks forming linear DNA. Complex [Cu(L-trp)(dppz)(H2O)+ shows a stacking arrangement of the indole and dppz rings giving a separation that fits with the base pair separation of ds-DNA. Photosensitizes in these complexes approach two different complementary stands of the ds-DNA, leading to double strand breaks and formation of linear DNA. Mechanistic studies on the DNA photocleavage reactions reveal the formation of singlet oxygen(1O2)species by a type-II pathway in preference to the hydroxyl radical generation. A process leading to an efficient DNA cleavage activity on visible light irradiation. The observation of sequence selectivity and double strand DNA cleavage on red light exposure by national design of the complexes is significant considering importance of the results in the chemistry of photodynamic therapy of cancer. The results of this dissertation open up new avenues for designing and developing 3d metal-based photosensitizers with potential utility in nulcleic acid chemistry.

Copper Complexes

Amino Acids

Organic Conjugates

Transition Metal Complexes

Copper Complexes - DNA Binding

Copper Complexes - DNA Cleavage

Copper Complexes - Crystallography

Ternary Copper (II) Complexes

Phenanthroline Bases

Photo-induced DNA Cleavage

Copper(II) Complexes

Inorganic Biochemistry

Atividade catalítica de compostos diimínicos de cobre (II) frente a oxidantes biológicos: Espécies Mono-, di- e tetranucleares / Catalytic activity of copper (II) diimine compounds against biological oxidants: Mono-, di- and tetranuclear species

Alves, Wendel Andrade

15 February 2001

Diferentes complexos de cobre(II) contendo um ligante tridentado do tipo imínico e um grupo imidazol foram preparados, na forma de sais perclorato, e caracterizados através de diferentes técnicas espectroscópicas (UV/Vis, IR, Raman e EPR). Em solução aquosa, estes compostos estão em equilíbrio com as correspondentes espécies dinucleares, onde os centros de cobre estão ligados através de uma ponte imidazolato. Em meio alcalino, estes compostos dinucleares e uma espécie tetranuclear foram também isolados e caracterizados. Medidas espectroscópicas e por eletroforese capilar, a diferentes pHs, permitiram estimar o valor da constante de equilíbrio num dos casos. A atividade catalítica desses complexos frente ao peróxido de hidrogênio e ao oxigênio molecular foi então comparada. A maioria dos compostos dinucleares e o tetranuclear mostraram ser eficientes catalisadores para a oxidação aeróbica de substratos fenólicos, com formação da correspondente difenoquinona, monitorada espectrofotometricamente, exibindo uma dependência de primeira ordem da velocidade de reação com a concentração do fenol e do complexo. Por outro lado, o estudo cinético da decomposição catalítica do peróxido de hidrogênio, monitorada manometricamente através do oxigênio liberado, indicou uma apreciável atividade dos compostos mononucleares, dependendo do pH. Neste caso, espécies reativas de oxigênio foram detectadas por EPR, utilizando o método do captador de spin. Parâmetros espectroscópicos e características estruturais destes complexos mostraram ser determinantes para sua reatividade frente a ambos os oxidantes biológicos estudados. / Different copper(II) complexes containing an imidazole ligand, in addition to a discrete tridentate imine, were prepared as perchlorate salts, and characterized by spectroscopic techniques (UV/Vis, IR, Raman and EPR). In aqueous solution, these compounds are in equilibrium with the corresponding binuclear species, where the copper centres are bridged by an imidazolate ligand. In alkaline solutions, these binuclear species and a tetranuclear were also isolated, and characterised. Evidence of these equilibria in aqueous solution was obtained by spectroscopic measurements and capillary electrophoresis, at different pH. An equilibrium constant involving the mono- and binuclear species was estimated for one of the ligands. The catalytic activity of the obtained complexes toward the usual biological oxidants, hydrogen peroxide and molecular oxygen, were then compared. Most of the binuclear and tetranuclear compounds showed to be efficient catalysts of the aerobic oxidation of phenolic substrates to the corresponding quinones or diphenoquinones, followed spectrophotometrically. Kinetic results indicated a first-order dependence of the reaction rate on both the complex and the phenol concentrations. On the other hand, an appreciable activity of the mononuclear compounds was verified on the catalytic decomposition of hydrogen peroxide. This reaction was monitored manometrically by the oxygen released, and was shown to be very dependent on the pH. Additionally, in this case, very reactive oxygen radicals were detected at the first stages of the reaction, by spin trapping EPR. Spectroscopic parameters and structural features in these complexes seem to be determinant of their reactivity toward the studied biological oxidants.

Bioinorganic

Bioinorgânica

Bioquímica inorgânica

Compostos de cobre(II)

Compostos organometálicos

Copper (II) compounds

EPR

EPR

Inorganic biochemistry

Organometallic compounds

Atividade catalítica de compostos diimínicos de cobre (II) frente a oxidantes biológicos: Espécies Mono-, di- e tetranucleares / Catalytic activity of copper (II) diimine compounds against biological oxidants: Mono-, di- and tetranuclear species

Wendel Andrade Alves

15 February 2001

Diferentes complexos de cobre(II) contendo um ligante tridentado do tipo imínico e um grupo imidazol foram preparados, na forma de sais perclorato, e caracterizados através de diferentes técnicas espectroscópicas (UV/Vis, IR, Raman e EPR). Em solução aquosa, estes compostos estão em equilíbrio com as correspondentes espécies dinucleares, onde os centros de cobre estão ligados através de uma ponte imidazolato. Em meio alcalino, estes compostos dinucleares e uma espécie tetranuclear foram também isolados e caracterizados. Medidas espectroscópicas e por eletroforese capilar, a diferentes pHs, permitiram estimar o valor da constante de equilíbrio num dos casos. A atividade catalítica desses complexos frente ao peróxido de hidrogênio e ao oxigênio molecular foi então comparada. A maioria dos compostos dinucleares e o tetranuclear mostraram ser eficientes catalisadores para a oxidação aeróbica de substratos fenólicos, com formação da correspondente difenoquinona, monitorada espectrofotometricamente, exibindo uma dependência de primeira ordem da velocidade de reação com a concentração do fenol e do complexo. Por outro lado, o estudo cinético da decomposição catalítica do peróxido de hidrogênio, monitorada manometricamente através do oxigênio liberado, indicou uma apreciável atividade dos compostos mononucleares, dependendo do pH. Neste caso, espécies reativas de oxigênio foram detectadas por EPR, utilizando o método do captador de spin. Parâmetros espectroscópicos e características estruturais destes complexos mostraram ser determinantes para sua reatividade frente a ambos os oxidantes biológicos estudados. / Different copper(II) complexes containing an imidazole ligand, in addition to a discrete tridentate imine, were prepared as perchlorate salts, and characterized by spectroscopic techniques (UV/Vis, IR, Raman and EPR). In aqueous solution, these compounds are in equilibrium with the corresponding binuclear species, where the copper centres are bridged by an imidazolate ligand. In alkaline solutions, these binuclear species and a tetranuclear were also isolated, and characterised. Evidence of these equilibria in aqueous solution was obtained by spectroscopic measurements and capillary electrophoresis, at different pH. An equilibrium constant involving the mono- and binuclear species was estimated for one of the ligands. The catalytic activity of the obtained complexes toward the usual biological oxidants, hydrogen peroxide and molecular oxygen, were then compared. Most of the binuclear and tetranuclear compounds showed to be efficient catalysts of the aerobic oxidation of phenolic substrates to the corresponding quinones or diphenoquinones, followed spectrophotometrically. Kinetic results indicated a first-order dependence of the reaction rate on both the complex and the phenol concentrations. On the other hand, an appreciable activity of the mononuclear compounds was verified on the catalytic decomposition of hydrogen peroxide. This reaction was monitored manometrically by the oxygen released, and was shown to be very dependent on the pH. Additionally, in this case, very reactive oxygen radicals were detected at the first stages of the reaction, by spin trapping EPR. Spectroscopic parameters and structural features in these complexes seem to be determinant of their reactivity toward the studied biological oxidants.

Bioinorgânica

Bioquímica inorgânica

Compostos de cobre(II)

Compostos organometálicos

EPR

Bioinorganic

Copper (II) compounds

EPR

Inorganic biochemistry

Organometallic compounds

Estudo da reatividade de N-(2-hidroxietil)-N'-(4-metilfenil) guanidina com cobre (II): uma abordagem experimental e computacional

Magalhães, River Souza

25 February 2011

Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2014-08-11T14:46:08Z No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertacao River Souza Magalhaes.pdf: 1856967 bytes, checksum: 6da8a950fc3e088ddd4b5b2558c23691 (MD5) / Made available in DSpace on 2014-08-11T14:46:08Z (GMT). No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertacao River Souza Magalhaes.pdf: 1856967 bytes, checksum: 6da8a950fc3e088ddd4b5b2558c23691 (MD5) Previous issue date: 2011-02-25 / This work presents the synthesis of N-[-(4-methylphenyl)]-thiourea, the ligand N-[N'-(2-hydroxyethyll)-(4-methylphenyl)]-guanidine and the copper II complex. The compounds were characterized by infrared spectroscopy,1H NMR and X-ray diffraction. The results of X-ray shows the mode of ligand coordination to the metal ion, in addition to square planar structure, a connection is observed for the trans chromophore CuN2O2. Conformational studies of the molecule the ligand N-[N'-(2-hydroxyethyl)-(4-methylphenyl)]-guanidine and were performed to compare experimental data with calculated data. the computation of ligand molecule N-[N'-(2-hydroxyethyl)-(4-methylphenyl)]-guanidine shows the small energy difference between the threes tautomers, it is not possible to state firmly the most stable. The 1H NMR data show that the solution is more abundant in the tautomer II and III. Calculations of energy transition states for the reaction path. In addition to the calculations of imaginary for the characterization of transition states. / Este trabalho apresenta a síntese da N-[N'-(2-hidroxietil)-(4-metilfenil)]-tioureia, do ligante N-[N'-(2-hidroxietil)-(4-metilfenil)]-guanidina e do complexo de cobre II [Cu(oib)2]. Os compostos foram caracterizados por espectroscopia de infravermelho, RMN de 1H e difração de raios-X. O resultado de DRX mostra o modo de coordenação do ligante ao íon metálico, além da estrutura quadrado planar, é observado uma ligação trans para o cromóforo CuN2O2. Estudos conformacionais da molécula do ligante N-[N'-(2-hidroxietil)-(4-metilfenil)]-guanidina que foram realizados para confrontar dados experimentais com dados calculados. Os cálculos computacionais da molécula do ligante N-[N'-(2-hidroxietil)-(4-metilfenil)]-guanidina mostra uma pequena diferença de energia entre os três tautômeros, não sendo possível afirmar com firmeza o mais estável. Os dados de RMN 1H mostram que o mais abundante em solução é o tautômero II e o III. Cálculos de energia dos estados de transição para o caminho reacional. Além do cálculo das frequências imaginárias para caracterização dos estados de transição.

Guanidina funcionalizada

Estudo conformacional

Síntese do complexo de cobre (II)

Funcionalized guanidines

Conformational study

Copper (II) complex synthesis

CIENCIAS EXATAS E DA TERRA::QUIMICA