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Novas estruturas fotônicas: I – Auto-organização de estruturas 1D de Te; II – Biopolímeros e plásticos reutilizados multifuncionais / New photonic structures: I – Self assembly of 1D Te structures; II – Multifunctional biopolymers and reused plasticsSilva, Robson Rosa da [UNESP] 23 May 2016 (has links)
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Previous issue date: 2016-05-23 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Nanoestruturas unidimensionais de telúrio (Te1D) na forma de whiskers, fios e hélices foram preparados com facilidade por uma síntese em etapa única na presença de solução aquosa de Pluronic® F68 à baixas temperaturas (< 100 °C) e pressão ambiente. A forma das nanoestruturas puderam ser controladas de acordo com a cinética da reação. Estruturas empacotadas de nanowhiskers e nanofios de Te foram obtidas via auto-organização em interface líquido-líquido e pela técnica de drop-cast em substrato de Si/SiO2. Estruturas híbridas 1D foram obtidas utilizando nanoestruturas Te1D como molde de sacrifício para anexar nanopartículas metálicas ou mesmo produzir nanoestruturas 1D metálicas. Por exemplo, nanoestruturas híbridas 1D foram preparadas decorando nanofios de Te com nanopartículas de Ag em solução aquosa de poli(vinilpirrolidona). Nanoestruturas 1D de Au com forma de nódulos foram preparados por deslocamento galvânico de íons Au3+ em uma mistura de nanohélices de Te, ácido ascórbico e solução aquosa de poli(vinilpirrolidona). Além disso, nanohélices de Te foram funcionalizadas com uma camada resina resorcinol-formaldeído em condições brandas de síntese. A resina de resorcinol-formaldeído é uma via intermédia para explorar a deposição de compostos opticamente ativos tais como nanopartículas de hidroxicarbonato de Tb3+ ou nanopartículas de Au. Para aplicações práticas é essencial que estas nanoestruturas possam ser suportadas em filmes rígidos ou flexíveis de alta qualidade óptica. Filmes de polímeros naturais puros e filmes híbridos de sol-gel epóxi foram avaliados como potenciais matrizes hospedeiras para luminóforos. A fabricação de híbridos é baseada na incorporação de 3-glicidoxipropiltrimetoxissilano na solução homogênea de polímero natural com posterior secagem sobre uma superfície plana. Particularmente, filmes flexíveis de fibroína da seda e acetato de celulose e os seus híbridos derivados exibiram excelentes propriedades ópticas para hospedar compostos opticamente ativos. Por exemplo, compostos de Eu3+ emissores na região do vermelho e corantes fluorescentes foram incorporados em matriz pura de polímero e híbridos epóxi e suas propriedades ópticas foram investigadas. Laser de corantes por feedback distribuído (DFB) foram fabricados dopando grades de difração de fibroína de seda com Rodamina 6G. Devido a sua capacidade de replicar superfícies padronizadas com resolução nanométrica, grades de fibroina da seda dopadas com corante foram depositadas contra a grade de difração de uma mídia de disco compacto comercial. Lasers modificados de DFB baseados em filmes de fibroina contendo nanopartículas espalhadoras de luz de SiO2 e Ag aleatoriamente distribuídas na grade de fibroina demonstraram aumento da intensidade do laser, além de estreitamento da largura do pico de emissão. Filmes híbridos flexíveis e transparentes (> 85%) de fibroina da seda e acetato de celulose modificados com função epóxi e contendo compostos fluorescentes na região do vermelho como complexos β-dicetonato de Eu3+ e nanopartículas de YVO4:Eu3+ em baixa proporção relativa mássica (<5%) foram preparados. De maneira geral, o resultado são filmes homogêneos com funções epoxi e/ou alcoxissilano não hidrolisados disponíveis para outras modificações químicas. Devido a matéria-prima limitada de polímeros naturais para uma alta demanda de fabricação de dispositivos ópticos, é igualmente importante desenvolver materiais com base na reutilização de polímeros sintéticos. Filmes finos de poliestireno foram concebidos por dissolução de poliestireno expandido (EPS) recuperado de resíduos em D-limoneno, um solvente verde proveniente de óleos cítricos. Filmes transparentes dopados com complexos β-dicetonato de Eu3+ demonstraram excelente transparência e aptos para uso em guias de luz. Estes resultados são motivadores para a) a engenharia de nanoestruturas 1D com propriedades ópticas sintonizáveis bem como, b) desenvolvimento de híbridos flexíveis e transparentes baseados em híbridos de polímeros naturais com alta funcionalidade química ou polímeros sintéticos reciclados como potenciais matrizes hospedeiras ópticas almejadas em aplicações fotônicas. / One-dimensional Te nanostructures (Te1D) in the shape of whiskers, wires and helices were prepared by a facile one-pot synthesis in the presence of aqueous Pluronic® F68 solution at low temperatures (< 100 ºC) and ambient pressure. The shape of Te1D nanostructures could be manuvered according with the reaction kinectics. We evaluate some techniques to assemble Te1D nanostructures on the pursuit for complex nanoarchitectures. Bundles of Te nanowhiskers and nanowires were achieved by self-assembly in liquid-liquid interface or by drop-cast technique in Si/SiO2 substrates. 1D hybrid structures have been conceived by using Te1D nanostructures as sacrificial template to attach metallic nanoparticles or even produce metallic 1D nanostructures. For example, 1D hybrid nanostructures were easily prepared by decorating Te nanowires with Ag nanoparticles in aqueous solution of poly(vinylpyrrolidone). Au 1D nanostructures with nodular-like shape were prepared by galvanic displacement of Au3+ ions in a mixture of Te nanohelices, ascorbic acid and an aqueous solution of poly(vinylpyrrolidone). Furthermore, Te1D nanohelices were functionalized with a layer of resorcinol-formaldehyde resin at mild synthesis conditions. The RF resin allowed us to fashion an intermediate pathway to explore the deposition of optically active compounds like Tb3+ hydroxylcarbonate or Au nanoparticles. Seeking practical applications, these nanostructures should be hosted over rigid or flexible films possessing excellent optical properties. Pure natural polymers and epoxy sol-gel hybrids films were evaluated as potential host for luminophors. The fabrication of epoxy hybrids is based on the incorporation of 3-glycidoxypropyltrimethoxysiloxane on the homogenous solution of natural polymer with subsequent casting over flat surface. Particularly, flexible silk fibroin and cellulose acetate films and their derivative hybrids displayed excellent optical properties to host optically active compounds. For instance, red emitting Eu3+ compounds and fluorescent dyes were hosted on pure natural polymer and hybrid films and the optical features of the luminescent films were investigated thoroughly. Distributed feedback dye-lasers were fabricated by doping silk fibroin diffraction gratings with Rhodamine 6G. Owing its ability to mimic patterned surfaces at nanoscale resolution, dye-doped SF gratings were fabricated using replica-casting patterning against a commercial blank digital versatile disc as template. A modified DFB Laser based on SF films with Ag or SiO2 light scattering particles randomly distributed on the grating unveiled an enhancement of laser intensity withal narrowing of emission peak linewidth. Flexible and highly transparent SF- and CA-epoxy hybrids (> 85%) containing red fluorescent Eu3+ b-diketonate complex and YVO4:Eu3+ nanoparticles at low relative content (< 5 wt%) were tailored. In general, the outcome is homogeneous films with epoxy and/or unhydrolized alkoxysilane functions available for further chemical modification.
Owing the limited feedstock of natural polymers for high demanding production of optical devices, it is equally important develop materials based on the reuse of synthetic polymers. Thin films of polystyrene were conceived by dissolving waste-recovered expanded-polystyrene (EPS) in D-limonene, a green solvent from citrus oil. Transparent EPS films doped with Eu3+ b-diketonate complex displayed excellent transparency and light waveguiding, These assertions provide a framework that motivates the research on a) engineering of 1D hybrids nanostructures with tunable optical properties and b) flexible natural polymer/epoxy hybrid with enhanced functionality or plastic recycled as potential optical hosts sought in photonic applications. / FAPESP: 2013/12367-6
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Desenvolvimento de metodologias em síntese orgânica: uso do catalisador Eu-MOF na síntese de cianoidrinas e obtenção de anéis tetraidropirânicos utilizando [BIMIM][PF6]Batista, Poliane Karenine 15 February 2017 (has links)
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Previous issue date: 2017-02-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Currently several works have been developed in order to provide alternative routes for the synthesis of several organic compounds. These new protocols are generally aimed at obtaining softer and more eco-friendly reactive conditions, better yields and / or reactional times, and mechanistic studies, among others. This work consists of the study of synthesis routes of cyanohydrins and tetrahydropyrans, using lanthanide catalysts and ionic liquids, respectively. As cyanohydrins are products that can be transformed into important organic intermediates. They are obtained by the cyanosilylation of aldehydes reaction, which is synthetically viable only in the presence of a Lewis acid. In this work, the MOF [Eu2 (MELL)(H2O)6] was used as a heterogeneous catalyst in the cyanosilylation of aldehydes reaction. The catalytic assays were optimized using a thermally activated MOF in acetonitrile. Different aldehydes several structurally provided their respective cyanohydrins ranging from 1 to 6 hours and yields of 62 to 100%. The MOF was recycled in the addition reaction of TMSCN to 2-furfuraldehyde without loss of activity for five cycles. Tetrahydropyran rings (THP) are common in many natural products, so various strategies are being developed to synthesize them. In this work we also describe the study to obtain 2,4,6-trisubstituted tetrahydropyrans in a single step promoted by the ionic liquid (IL) BMIM][PF6] between the allyl bromide and aldehydes, through the Barbier-Prins reaction. The tests were performed under different conditions and optimized using 1: 4 benzaldehyde and allyl bromide. The use of IL [BMIM][PF6] provided THPs of various aldehydes in good yields ranging from 40% to 75% in 8 hours of reaction. In addition, IL [BMIM][PF6] was recovered and reused in the preparation of 4-bromo-2,6-diphenyl-tetrahydro-2H-pyran by up to 5 times without significant loss of yield of that product. The influence of the PF6- anion on the reaction between benzaldehyde and allyl bromide under the Barbier reaction conditions was investigated, as well as the influence of SnBr2 salt on the Prins cyclization reaction between homoallylic alcohol and benzaldehyde. The results show evidence that PF6- acts by accelerating the Barbier reaction and the excess of SnBr2 acts as Lewis acid in the Prins cyclization reaction. Subsequently, the use of KI in the reaction between benzaldehyde and allyl bromide was investigated, and it was found that depending on the ratio used between KI and SnBr2, the preferential formation of homoalyl alcohol or THP compound could occur. / Atualmente vários trabalhos têm sido desenvolvidos no intuito de possibilitar rotas alternativas para a síntese de diversos compostos orgânicos. Esses novos protocolos visam geralmente a obtenção de condições reacionais mais brandas e eco-amigáveis, melhores rendimentos e/ou tempos reacionais, estudos mecanísticos entre outros. Este trabalho consiste no estudo de rotas de síntese de cianoidrinas e tetraidropiranos, utilizando catalisadores de lantanídeos e líquidos iônicos, respectivamente. As cianoidrinas são substâncias que podem ser transformadas em intermediários orgânicos importantes. São geralmente obtidas através da reação de cianossililação de aldeídos, que é sinteticamente viável apenas na presença de um ácido de Lewis. Nesse trabalho, a MOF [Eu2(MELL)(H2O)6] foi utilizada como catalisador heterogêneo na reação de cianossililação de aldeídos. Os ensaios catalíticos foram otimizados utilizando a MOF ativada termicamente em acetonitrila. Diversos aldeídos estruturalmente diferentes forneceram suas respectivas cianoidrinas variando de 1 a 6 horas e com rendimentos de 62 a 100%. A MOF foi reciclada na reação de adição de TMSCN à 2-furfuraldeído sem perda de atividade durante cinco ciclos. Anéis tetraidropirânicos (THP) são comuns em vários produtos naturais, portanto várias estratégias estão sendo desenvolvidas para sintetizá-los. Nesse trabalho descrevemos também o estudo para a obtenção de tetraidropiranos 2,4,6-trissubstituídos meso em uma única etapa promovida pelo líquido iônico (LI) BMIM][PF6] entre o brometo de alila e aldeídos, através da reação Barbier-Prins. Os testes foram realizados sob diferentes condições e foi otimizado utilizando-se o benzaldeído e brometo de alila na proporção 1:4. A utilização LI [BMIM][PF6] forneceu produtos THPs de vários aldeídos com bons rendimentos variando-se de 40% a 75% em 8 horas de reação. Adicionalmente o LI [BMIM][PF6] foi recuperado e reutilizado na preparação do 4-bromo-2,6-difenil-tetraidro-2H-pirano em até 5 vezes sem perda significativa dos rendimentos desse produto. Foi investigado a influência isolada do ânion PF6- na reação entre o benzaldeído e o brometo de alila nas condições reacionais de Barbier, assim como a influência do sal SnBr2 na reação de ciclização de Prins entre o álcool homoalílico e o benzaldeído. Os resultados mostram evidências que o PF6- atua acelerando a reação de Barbier e o excesso de SnBr2 atua como ácido de Lewis na reação de ciclização de Prins. Posteriormente foi investigado a utilização do KI na reação entre o benzaldeído e o brometo de alila, e verificou-se que dependendo da proporção utilizada entre o KI e o SnBr2 pode ocorrer a formação preferencial do álcool homoalílico ou do composto THP.Atualmente vários trabalhos têm sido desenvolvidos no intuito de possibilitar rotas alternativas para a síntese de diversos compostos orgânicos. Esses novos protocolos visam geralmente a obtenção de condições reacionais mais brandas e eco-amigáveis, melhores rendimentos e/ou tempos reacionais, estudos mecanísticos entre outros. Este trabalho consiste no estudo de rotas de síntese de cianoidrinas e tetraidropiranos, utilizando catalisadores de lantanídeos e líquidos iônicos, respectivamente. As cianoidrinas são substâncias que podem ser transformadas em intermediários orgânicos importantes. São geralmente obtidas através da reação de cianossililação de aldeídos, que é sinteticamente viável apenas na presença de um ácido de Lewis. Nesse trabalho, a MOF [Eu2(MELL)(H2O)6] foi utilizada como catalisador heterogêneo na reação de cianossililação de aldeídos. Os ensaios catalíticos foram otimizados utilizando a MOF ativada termicamente em acetonitrila. Diversos aldeídos estruturalmente diferentes forneceram suas respectivas cianoidrinas variando de 1 a 6 horas e com rendimentos de 62 a 100%. A MOF foi reciclada na reação de adição de TMSCN à 2-furfuraldeído sem perda de atividade durante cinco ciclos. Anéis tetraidropirânicos (THP) são comuns em vários produtos naturais, portanto várias estratégias estão sendo desenvolvidas para sintetizá-los. Nesse trabalho descrevemos também o estudo para a obtenção de tetraidropiranos 2,4,6-trissubstituídos meso em uma única etapa promovida pelo líquido iônico (LI) BMIM][PF6] entre o brometo de alila e aldeídos, através da reação Barbier-Prins. Os testes foram realizados sob diferentes condições e foi otimizado utilizando-se o benzaldeído e brometo de alila na proporção 1:4. A utilização LI [BMIM][PF6] forneceu produtos THPs de vários aldeídos com bons rendimentos variando-se de 40% a 75% em 8 horas de reação. Adicionalmente o LI [BMIM][PF6] foi recuperado e reutilizado na preparação do 4-bromo-2,6-difenil-tetraidro-2H-pirano em até 5 vezes sem perda significativa dos rendimentos desse produto. Foi investigado a influência isolada do ânion PF6- na reação entre o benzaldeído e o brometo de alila nas condições reacionais de Barbier, assim como a influência do sal SnBr2 na reação de ciclização de Prins entre o álcool homoalílico e o benzaldeído. Os resultados mostram evidências que o PF6- atua acelerando a reação de Barbier e o excesso de SnBr2 atua como ácido de Lewis na reação de ciclização de Prins. Posteriormente foi investigado a utilização do KI na reação entre o benzaldeído e o brometo de alila, e verificou-se que dependendo da proporção utilizada entre o KI e o SnBr2 pode ocorrer a formação preferencial do álcool homoalílico ou do composto THP.
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Studies On Lanthanide Complexes Showing Photo-activated DNA Cleavage And Anticancer ActivityHussain, Akhtar 12 1900 (has links) (PDF)
This thesis work deals with different aspects of the chemistry of La(III) and Gd(III) complexes, their interaction with DNA and proteins, photo-induced cleavage of double-stranded DNA, photocytotoxic effect on cancer cells, cell death mechanism and cellular localization behaviour.
Chapter I gives an introduction to the metal-based anticancer agents with special emphasis on clinically used drugs and the growing field of lanthanide therapeutics. An overview of the current strategies of cancer treatment, especially photodynamic therapy (PDT), is presented. Mode of small molecule-DNA interactions and the mechanistic aspects associated with DNA photodamage reactions and PDT effect are discussed with selected examples of compounds that are known to photocleave DNA on exposure to light of different wavelengths. A brief discussion on the various therapeutic applications of the lanthanide compounds is also made.
Chapter II presents the synthesis, characterization, DNA binding, BSA binding, photo-induced DNA cleavage activity and photocytotoxicity of La(III) and Gd(III) complexes of phenanthroline bases to explore the UV-A light-induced DNA cleavage activity and photocytotoxicity of the complexes.
Chapter III describes the synthesis, characterization, DNA binding, photo-induced DNA cleavage activity and photocytotoxicity of La(III) and Gd(III) complexes of phenanthroline bases with an aim to improve the design of the complexes to achieve better solution stability and DNA binding of the complexes.
Chapter IV presents the synthesis, characterization, DNA binding, and UV-A light-induced DNA photocleavage activity and photocytotoxicity of La(III) and Gd(III) complexes of pyridyl phenanthroline bases with an objective to improve the photoactivity of the complexes by introducing an additional pyridyl group. Cell death mechanism and confocal microscopic studies are also carried out to gain more insight into the PDT effect caused by light in the presence of the complex.
Chapter V describes the synthesis and characterization of La(III) and Gd(III) complexes of terpyridine bases and acetylacetonate to study the complexes as a new class of photosensitizers to explore their DNA photocleavage activity and photocytotoxicity in HeLa cells. Effect of attaching a glucose moiety to the acetyl acetone (Hacac) ligand has been studied. The cellular uptake behaviour of the La(III) pyrenyl-terpyridine complexes has also been investigated.
Finally, Chapter VI presents the synthesis and characterization of curcumin and glycosylated curcumin La(III) and Gd(III) complexes having terpyridine base with an objective to study the photoactivated anticancer activity of the complexes in visible light. This chapter describes the visible light-induced DNA cleavage activity and photocytotoxicity of the complexes by exploiting curcumin and glycosylated curcumin as the photosensitizer ligands. Study on the cellular uptake behavior of curcumin La(III) complexes having pyrenyl terpyridine ligand is also presented.
The references have been assembled at the end of each chapter and indicated as superscript numbers in the text. The complexes presented in this thesis are represented by bold-faced numbers. Crystallographic data of the complexes which are characterized structurally by single crystal X-ray crystallography are provided in CIF format in the enclosed CD (Appendix-I). Due acknowledgements have been made wherever the work described is based on the findings of other investigators. Any unintentional omission that might have happened due to oversight or mistake is sincerely regretted.
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Mechanism of N-Type Inactivation in Shaker Potassium ChannelsPandey, Roshan 08 1900 (has links)
Hyperexcitabilité est l'un des changements les plus importants observés dans de nombreuses maladies neuro-dégénératives telles que la sclérose latérale amyotrophique (SLA) et la maladie d'Alzheimer. De nombreuses recherches études se sont concentrées sur la réduction de l'hyperexcitabilité, soit en inactivant les canaux sodiques ce qui va réduire la génération de potentiels d'action, soit en prolongeant l'ouverture des canaux potassiques ce qui va qui ramener la membrane à son état de repos et réduire l’activité des neurones. Ainsi, pour cibler l'hyperexcitabilité, il faut tout d’abord comprendre les différents aspects de la fonction des canaux ioniques au niveau.
Les objectifs des travaux présentés dans cette thèse consistent à déterminer le mécanisme d'inactivation dans les canaux potassiques Shaker. Les canaux Shaker Kv s'inactivent rapidement pour culminer le potentiel d'action et maintenir l'homéostasie des cellules excitables. L'inactivation de type N est causée par les 46 premiers acides aminés situés de l'extrémité N-terminale du canal, encore appelé, peptide d'inactivation (IP). De nombreuses études mutationnelles ont caractérisé l'inactivation de type N au niveau fonctionnel, cependant, la position de l'IP à l'état de repos et leur transition lors de l'inactivation est encore débattue. L'objectif de la première étude consiste à évaluer le mouvement des IP pendant leur inactivation à l'aide de la fluorométrie en voltage imposé. En insérant un acide aminé non naturel, la 3-[(6-acétyl-2-naphtalényl) amino]-L-alanine (Anap), qui est sensible aux changements d'environnement, nous avons identifié séparément les mouvements de la boule et de la chaîne. Nos données suggèrent que l'inactivation de type N se produit dans un mouvement biphasique en libérant d'abord le IP, ce qui va bloquer le pore du côté cytoplasmique. Pour affiner davantage la position de repos des IP, nous avons utilisé le transfert d'énergie de résonance à base de lanthanide et le métal de transition FRET. Nous proposons que le IP se situe dans la fenêtre formée par le canal et le domaine T1, interagissant avec les résidus acides-aminés du domaine T1.
Dans notre deuxième étude, nous avons montré que le ralentissement de l'inactivation de type N observé dans la première étude est causée par une expression élevée des canaux Shaker. En effet, l'extrémité C-terminale du canal interagit avec les protéines d'échafaudage associées à la membrane pour la formation d'amas. Nous avons aussi montré qu'en tronquant les quatre derniers résidus C-terminaux impliqués dans la formation des amas, nous empêchons également le ralentissement de la cinétique d'inactivation dans les canaux Shaker. Nous avons également démontré que l'inactivation lente de type N n'est pas affectée par l'accumulation des cations potassiques [K+] externe ou toute diaphonie entre les sous-unités voisines. Cette étude élucide non seulement la cause du ralentissement de l'inactivation, mais montre également que les canaux modifient leur comportement en fonction des conditions d'expression. Les résultats trouvés au niveau moléculaire ne peuvent donc pas toujours être extrapolés au niveau cellulaire. / Hyperexcitability of neurons is a major symptom observed in many degenerative diseases such as ALS and Alzheimer’s disease. A lot of research is focused on reducing hyperexcitability, either by inactivating sodium channels that will reduce the generation of action potentials, or by prolonging the opening of potassium channels which will help to bring the membrane back to resting state and thus, reduce firing frequency of neurons. At the molecular level, it is important to understand different aspects of ion channel function to target hyperexcitability.
The aim of this thesis was to investigate in two projects the inactivation mechanism in Shaker potassium channels. Shaker Kv channels inactivate rapidly to culminate the action potential and maintain the homeostasis of excitable cells. The so-called N-type inactivation is caused by the first 46 amino acids of the N-terminus of the channel, known as the inactivation peptide (IP). Numerous mutational studies have characterized N-type inactivation functionally, however, the position of the IP in the resting state and its transition during inactivation is still debated. The aim of the first project was to track the movement of IP during inactivation using voltage clamp fluorometry. By inserting an unnatural amino acid, 3-[(6-acetyl-2-naphthalenyl) amino]-L-alanine (Anap), which is sensitive to changes in environment, we identified the movements of ball and chain separately. Our data suggests that N-type inactivation occurs in a biphasic movement by first releasing the IP, which then blocks the pore from the cytoplasmic side. To further narrow down the resting position of the inactivation peptide, we used Lanthanide-based Resonance Energy transfer and transition metal FRET. We propose that the inactivation peptide is located in the window formed by the channel and the T1 domain, interacting with the acidic residues of the T1 domain.
In a follow-up study, we explored the reason underlying slow inactivation kinetics observed during the study of N-type inactivation in the first project. High expression of Shaker channels results in slowing of the N-type inactivation. The C-terminus of the channel interacts with membrane associated scaffold proteins for cluster formation. In this study, we have shown that by truncating the last four C-terminal residues involved in cluster formation, and hence preventing channel clustering, we also prevent slowing of the inactivation kinetics in Shaker channels. We also showed that slow N-type inactivation is not affected by accumulation of external [K+] or any crosstalk between the neighboring subunits. The second project not only elucidates the cause of the inactivation slow-down but illustrates that the channels alter their behavior dependent on the expression conditions. Results found on the molecular level can thus not always be extrapolated to the cellular level.
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NaYF4:Yb,Er Upconversion Nanocrystals: Investigating Energy Loss Processes for the Systematic Enhancement of the Luminescence EfficiencyGrauel, Bettina 23 May 2022 (has links)
Aufkonvertierende (upconverting; UC) Nanomaterialien bilden eine neue Klasse nichtlinearer lumineszenter Reporter, die nah-infrarotes (NIR) Anregungslicht in Photonen von höherer Energie umwandeln. Das effizienteste bekannte UC-System bildet hierbei β-NaYF4: 20%Yb(III), 2%Er(III) mikrokristallines Bulkmaterial, für welches UC-Quantenausbeuten (ΦUC) von 10 % berichtet werden, während ΦUC von Nanokristallen (nanocrystals; NC) um mehrere Größenordnungen niedriger sein können. Um die Effizienz von UC-Nanomaterialien zu erhöhen, werden NC üblicherweise mit inerten Schalen versehen. In dieser Arbeit werden mehrere verschiedene Bulkmaterialien spektroskopisch untersucht, um ein Vergleichsmaterial auszuwählen, das als Maßstab für alle folgenden, vergleichbaren Messungen an NC dient. Die Oberfläche von ultrakleinen (3.7±0.5) nm NC wird mit Schalen von bis zu 10 nm Dicke versehen, um die optimale Schalendicke für vollständige Oberflächenpassivierung zu identifizieren, allerdings weisen die Ergebnisse auf eine mögliche Kern-Schale-Durchmischung hin. In einer zweiten Studie werden die unterschiedlichen Dotanden, Er(III) und Yb(III), auf ihre optischen Eigenschaften sowie die Einflüsse von Energietransfer (ET) und von ihrer Umgebung spektroskopisch untersucht. Dabei kann klar zwischen Oberflächeneffekten und oberflächenunabhängigen Volumeneffekten unterschieden werden. Die Ergebnisse werden durch ein einfaches Monte-Carlo-Modell gestützt, durch das die größen- und leistungsdichte-(P-)abhängigen Populierungsdynamiken der strahlenden Banden von Er(III) vorhergesagt werden können. Zuletzt werden durch eine verbesserte Synthesemethode UCNC mit stark verbesserten Lumineszenzeigenschaften hergestellt, mit denen bei vergleichsweise niedrigen P die gleichen ΦUC wie beim Bulkmaterial erreicht werden. Dies liefert einen Einblick in vielfältige Anwendungsmöglichkeiten für UCNC. / Upconversion (UC) nanomaterials are an emerging new class of non-linear luminescent reporters which convert near-infrared (NIR) excitation light into higher-energy photons. The most efficient known UC material is the β-NaYF4: 20%Yb(III), 2%Er(III) bulk (microcrystalline) phosphor with reported UC quantum yields (ΦUC) of 10 %, while ΦUC of nanocrystals (NC) can be several orders of magnitude lower. Strategies to improve the efficiency of UC nanomaterials include surface passivation with inert shells. In this work, several different bulk materials are compared to select one benchmark material for
comparisons with NC analyzed with the same measurement techniques. The surface of ultrasmall (3.7 ± 0.5) nm NC is coated with inert shells of up to 10 nm thickness to identify an optimal shell thickness for complete surface passivation, but the results suggest core-shell intermixing. To distinguish between the different dopant ions, Er(III) and Yb(III), and the effect of energy transfer (ET) in a second study, single- and co-doped UCNC are investigated spectroscopically and the influence of their environment is determined thoroughly. Herein, a clear distinction between surface-related and surface-independent, volume-related effects is achieved and the results are emphasized by the use of a simple random walk model which accurately predicts size- and power density (P)-dependent population dynamics of the emissive bands of Er(III). Finally, utilizing an improved synthesis technique, UCNC with enhanced luminescence properties are produced, reaching the same ΦUC as the benchmarked bulk material at reasonably low P, providing an insight into numerous possible
applications of UCNC.
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Computational and Experimental Investigations Concerning Rare Gas and DPAL Lasers and a Relaxation Kinetics Investigation of the Br<sub>2</sub> + 2NO = 2BrNO EquilibriumSchmitz, Joel R. 19 May 2017 (has links)
No description available.
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Complejos quirales derivados de sales de lantánidos (III) como catalizadores enantioselectivos de la condensación nitroaldólica y análogasTur Espinosa, Fernando 05 May 2008 (has links)
S'han sintetitzat derivats de BINOL (2,2'-dihidroxi-1,1'-binaftale) amb substitucio en C-3 i C-3' per grups dialquilaminometil anomenats, genericament, binaftolamines. S'ha evaluat la capacitat coordinant d'aquestes binaftolamines amb sals de lantanids (III) determinant que la combinacio de 3,3'-bis[(dietilamino)metil]-2,2'-dihidroxi-1,1'-binaftale (BINOLAM) i triflats de lantanids (III) condueix a la formacio de complexos quirals, d'estequiometria 3:1, amb simetria D3 i amb quiralitat predeterminada en el lantanid. Son especies estables al aire i emmagatzemables sense cap precaucio especial. Presenten una xarxa organitzada de centres acid de Lewis-acid de Bronsted-base de Bronsted (LABABB) de gran rellevancia per explicar la seva activitat catalitica. En dissolucio, son especies cineticament labils, estables en la majoria de dissolvents organics anhidres. S'ha estudiat la capacitat catalitica enantioselectiva dels complexos obtinguts en la reaccio nitroaldolica directa d'aldehids i α-trifluorometil cetones amb nitrometa obtenint els corresponents β-nitroaldols i α-trifluorometil nitroaldols terciaris amb rendiments quimics i enantioselectivitats de moderats a excel·lents. / Se han sintetizado derivados de BINOL (2,2'-dihidroxi-1,1'-binaftaleno) con sustitucion en C-3 y C-3' por grupos dialquilaminometil denominados, genericamente, binaftolaminas. Se ha evaluado la capacidad coordinante de estas binaftolaminas para con sales de lantanidos (III) determinando que la combinacion de 3,3'-bis[(dietilamino)metil]-2,2'-dihidroxi-1,1'-binaftaleno (BINOLAM) i triflatos de lantanidos (III) conducen a la formacion de complejos quirales, de estequiometria 3:1, con simetria D3 y con quiralidad predeterminada en el lantanido. Son especies estables al aire y almacenables sin ninguna precaucion especial. Presentan una red ordenada de centros acido de Lewis-acido de Bronsted-base de Bronsted (LABABB) de gran relevancia para explicar su actividad catalitica. En disolucion, son especies cineticamente labiles, estables en la mayoria de disolventes organicos anhidros. Se ha estudiado la capacidad catalitica enantioselectiva de los complejos obtenidos en la reaccion nitroaldolica directa de aldehidos y α-trifluorometil cetonas con nitrometano obteniendo los correspondientes β-nitroaldoles y α-trifluorometil nitroaldoles terciarios con rendimientos quimicos y enantioselectividades de moderados a excelentes. / We have synthesized BINOL (2,2'-dihydroxy-1,1'-binaphtalene) derivatives having dialkylaminomethyl groups at C-3 and C-3' generically named binaphtolamines. We assessed the ability of these ligands to coordinate lanthanide (III) salts. We found that the combination of 3,3'-bis[(diethylamino)methyl]-2,2'-dihydroxy-1,1'-binaphtalene (BINOLAM) with lanthanide (III) triflates led to the formation of chiral complexes characterized by having 3:1 stoichiometry, D3 symmetry and predetermined chirality on the lanthanide center. They are shelf stable species i.e., storable for months without any special precautions. They possess an arrayed network of Lewis acid-Bronsted acid-base Bronsted centres (LABABB) which is relevant to explain its catalytic activity. In solution, these species are kinetically labile and are stable in most anhydrous organic solvents. We have studied the ability of these complexes to work as enantioselective catalysts in the direct nitroaldol (Henry) reaction of aldehydes and α-trifluoromethyl ketones with nitromethane thereby giving rise to the corresponding β-nitroaldols and α-trifluoromethyl tertiary nitroaldols with moderate to high chemical yields and enantioselectivity.
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Photon Upconversion Sensitized Rare-Earth Fluoride NanoparticlesMonks, Melissa-Jane 26 June 2023 (has links)
Aufkonversions-Nanokristalle (UCNC) zeichnen sich als einzigartige Lumineszenzreporter aus, die Nah-infrarotes Anregungslicht in Photonen höherer Energie umwandeln. Für die gezielte Anpassung von Eigenschaften, bedarf es ein tiefes Verständnis der Prozesse der Aufwärtskonversionslumineszenz (UCL) und deren Abhängigkeit von Material und Partikeldesign.
Diese Doktorarbeit untersucht die UCL-Prozesse von Yb3+,Er3+ dotierten SrF2-UCNC und zielt darauf ab, die UCL-Eigenschaften der bisher unterschätzten kubischen Wirtsgitter zu verstehen und zu steigern. Hierbei wird die fluorolytische Sol-Gel-Synthese als neuartige Syntheseroute für UCNC vorgestellt. Vorteile wie ausgezeichnete Reproduzierbarkeit, viele Freiheitsgrade bei der Temperaturbehandlung und Partikelgestaltung werden anhand von SrF2 UCNC demonstriert.
Die UCNC wurden mittels UCL-Spektren, UCL-Quantenausbeuten, leistungsdichte-abhängiger relativer spektraler Verteilung sowie der Lumineszenzabklingkinetiken unter Einbeziehung kristalliner Eigenschaften wie der Kristallphase, der Kristallitgröße, der Gitterparameter und der Teilchengröße untersucht.
Die Abhängigkeit der UCL-Eigenschaften von der Dotierungsmenge wurde mit einer umfassenden Dotierungsreihe beschrieben und der optimale Dotierungsbereich (Yb3+,Er3+) von kleinen, ungeschalten SrF2-UCNC eingegrenzt. Bei der Studie dotierter Kerne mit passivierenden Schalen wurde der Einfluss von Temperaturbehandlung auf die UCL-Mechanismen und die Kern-Schale-Vermischung untersucht. Anhand von unterschiedlich kalzinierten UCNC Pulvern wurde die Empfindlichkeit der UCL gegenüber der Änderung kristalliner Eigenschaften, wie Kristallphase, Kristallinität, und Kristallitgröße betrachtet. Zusammen liefern die Dotierungs-, die Kern-Schale- und die Kalzinierungsstudie wertvolle Einblicke in das gitterspezifische Verhalten der UCL-Eigenschaften als Funktion der Energiemigration und der Kristalleigenschaften. / Upconversion nanocrystals (UCNC) represent a unique type of luminescence reporters that convert near-infrared excitation light into higher energy photons. Tailoring UCNC with specific luminescence properties requires an in-depth understanding of upconversion luminescence (UCL) processes and their dependence on material and particle design.
This Ph.D. thesis focuses on the UCL processes of Yb3+,Er3+ doped SrF2-UCNC and aims to understand and enhance the UCL properties of the previously underestimated cubic host lattices. Herein, fluorolytic sol-gel synthesis is introduced as a novel synthetic route for UCNC. Advantages such as excellent reproducibility, high flexibility in temperature treatment and particle design are demonstrated using SrF2 UCNC.
The UCNC were characterized by UCL spectra, UCL quantum yields, excitation power density-dependent relative spectral distribution, and luminescence decay kinetics involving crystalline properties such as crystal phase, crystallite size, lattice parameters, and particle size.
The dependence of UCL properties on doping amount was described in a comprehensive doping study, and the optimal doping range (Yb3+,Er3+) of small, unshelled SrF2-UCNC was identified.
In a core-shell study of doped core UCNC with passivating shells, the influence of temperature treatment on UCL mechanisms and core-shell mixing was investigated. Further, using different calcined UCNC powders, the sensitivity of UCL to the change of crystalline properties, such as crystal phase, crystallinity, and crystallite size, was assessed. Together, the doping, core-shell, and calcination studies provide valuable insight into the lattice-specific behavior of UCL properties as a function of energy migration and crystal properties.
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Artificial biomineralisation and metallic soapsCorkery, Robert, robert.corkery@anu.edu.au January 1998 (has links)
In this thesis, geometry is used as a basis for conducting experiments aimed at growing
and arranging inorganic minerals on curved interfaces. Mineralisation is directed using
crystalline and liquid-crystalline metallic soaps and surfactant/water systems as
templates.¶
A review of the history, syntheses, structure and liquid crystallinity of metallic soaps
and other amphiphiles is presented as a foundation to understanding the interfacial
architectures in mesostructured template systems in general.¶
In this study, a range of metallic soaps of varying chain length and cation type are
synthesised and characterised to find potentially useful templates for mineral growth.
These include alkaline-earth, transition metal, heavy metal and lanthanide soaps. These
are systematically characterised using a variety of analytical techniques, including
chemical analyses, x-ray diffraction (XRD) infrared spectroscopy (IR) and differential
scanning calorimetry (DSC). Their molecular and crystal structures are studied using
transmission electron microscopy (TEM), cryo-TEM, electron diffraction (ED), electron
paramagnetic spin resonance (EPR), absorption spectroscopy (UV-VIS), high resolution
laser spectroscopy, atomic force microscopy (AFM), nuclear magnetic resonance
spectroscopy, scanning electron microscopy (SEM), electron dispersive x-ray analysis
(EDXA), thermal gravimetric analysis (TGA) and magnetic measurements. Models for
the molecular and crystal structures of metallic soaps are proposed. The soaps are
predominantly lamellar crystalline or liquid crystalline lamellar rotor phases with tilted
and/or untilted molecular constituents. These display evidence of varying degrees of
headgroup organisation, including superstructuring and polymerisation. A single crystal
structure is presented for a complex of pyridine with cobalt soap. Simple models for
their structure are discussed in terms of their swelling properties in water and oils.
Experiments are also presented to demonstrate the sorbent properties of aluminium
soaps on oil spills.¶
The thermotropic liquid crystallinity of alkaline earth, transition metal, heavy metal and
lanthanide soaps is investigated in detail. This is done to assess their suitability as
templates, and to document their novel thermotropic behaviour, particularly the
relatively unknown lanthanide soaps. Liquid crystalline behaviours are studied using
high-temperature XRD (HTXRD), hot-stage optical microscopy and DSC. Models for a
liquid crystalline phase progression from crystals to anisotropic liquids are discussed in
terms of theories of self-assembly and interfacial curvature. The terminology required
for this is drawn from various nomenclature systems for amphiphilic crystals and liquid
crystals. General agreement with previous studies is reported for known soaps, while
liquid crystallinity is demonstrated in the lanthanide and some non-lanthanide soaps for
the first time. A general phase progression of crystalline lamellar through liquid
crystalline lamellar to non-lamellar liquid crystalline is discussed in terms of models
concerned with the molecular and crystal structures of the soaps and their phase
transitions via headgroup and chain re-arrangements.¶
Experiments aimed at guiding growth of metal sulfides using metallic soaps as
templates are described, and a model for this growth is discussed. Metal sulfides have
been successfully grown by reacting crystalline and liquid crystalline transition metal
and heavy metal soaps with H2S gas at room temperature and at elevated temperature.
These have been characterised using XRD, TEM, ED and IR. Sulfide growth is
demonstrated to be restricted and guided by the reacting soap template architecture.
Zinc, cadmium, indium and lead soaps formed confined nanoparticles within the matrix
of their reacting soap template. In contrast, curved and flat sheet-like structures, some
resembling sponges were found in the products of sulfided iron, cobalt, nickel, copper,
tin and bismuth soaps. A model to explain this behaviour is developed in terms of the
crystal and liquid crystal structures of the soaps and the crystal structures of the metal
sulfide particles.¶
Liquid crystalline iron soaps have been subjected to controlled thermal degradation
yielding magnetic iron oxide nanoparticles. Some XRD and TEM evidence has been
found for formation of magnetic mesostructures in heat-treated iron soaps. Models for
the molecular and liquid crystalline structure of iron soaps, their thermotropic phase
progression and eventual conversion to these magnetic products are discussed.
Systematic syntheses of mesoporous silicates from sheeted clays are discussed.¶The
templates that have been used are cationic surfactants and small, organic molecular
salts. Experiments are reported where a cooperative self-assembly of
surfactant/water/kanemite plus or minus salt and oils yields 'folded sheet materials'
(FSM'S). Templating of kanemite has also been achieved using cobalt cage surfactants.
A theoretical prediction of the specific surface areas and specific volumes of
homologous sets of FSM's gave excellent agreement with measured values. The
geometry and topology of the mesostructures are discussed. A theoretical model is also
discussed regarding the curvature found in the sheets of natural clays , and results of
templating clays and silica using metallic soaps are presented. Experiments and a model for low temperature nucleation and growth of microporous silicalite-1 are described in
terms of silica templating by water clathrates.¶
Finally, the problem of finding minimal surface descriptions of crystal networks is
addressed. Combinatoric methods are used to disprove the existence of possible
embeddings of type I and II clathrate networks in non-self intersecting periodic minimal
surfaces. The crystal network of the clathrate silicate, melanophlogite is successfully
embedded in the WI-10 self-intersecting surface. Details of a previously unreported,
genus-25 periodic surface with symmetry Im3m are discussed.
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Σύνθεση, δομικός χαρακτηρισμός, φασματοσκοπικές και μαγνητικές μελέτες πολυπυρηνικών ομομεταλλικών 3d και ετερομεταλλικών 3d-4f συμπλόκων / Synthesis, structural characterization, spectroscopic and magnetic studies of polynuclear 3d homometallic and 3d-4f heterometallic complexesΓεωργοπούλου, Αναστασία 15 February 2012 (has links)
Με σκοπό τη μελέτη της χημείας ένταξης του υποκαταστάτη δι-2,6-(2-πυριδυλοκαρβονυλο) πυριδίνη (dpcp) με μέταλλα μετάπτωσης 3d, παρασκευάστηκαν οι τετραπυρηνικές πλειάδες [Cu4(N3)2{pyCO(OMe)pyCO(OMe)py}2(MeOH)2](ClO4)∙2MeOH (1∙2MeOH) και [Co4(N3)2(NO3)2{pyCO(OMe)pyCO(OMe)py}2]∙0.5MeOH (2∙0.5MeOH), η εξαπυρηνική πλειάδα [Ni6(CO3)(N3)6{pyCOpyC(O)(OMe)py}3(MeOH)2(H2O)][Ni6(CO3)(N3)6 {pyCOpyC(O)(OMe)py}3(MeOH)3](ClO4)2 (3∙1.8MeOH) και η διπυρηνική πλειάδα [Fe2{pyCO(OMe)py(Η)CO(OMe)py}2(MeO)2](ClO4)2∙(4∙MeOH). Στην συνέχεια μελετήθηκε η χημεία ένταξης του ίδιου υποκαταστάτη με μέταλλα 3d και 4f και παρασκευάστηκαν τα ετερομεταλλικά διπυρηνικά σύμπλοκα [ΜIILnIII{pyCOH(OEt)pyCOH(OEt)py}3](ClO4)2∙EtOH (5-16∙EtOH) με ΜΙΙ = CuΙΙ, CoΙΙ, NiΙΙ, ZnΙΙ, MnΙΙ, FeΙΙ [LnΙΙΙ = GdΙΙΙ (5 - 10), TbΙΙΙ (11 – 16) αντίστοιχα]. Όλα τα σύμπλοκα χαρακτηρίστηκαν κρυσταλλογραφικά, τα σύμπλοκα 4, 10 και 16 χαρακτηρίστηκαν με φασματοσκοπία Mössbauer ενώ τα σύμπλοκα 1 – 10 χαρακτηρίστηκαν μαγνητικά. Πιο συγκεκριμένα, οι μαγνητικές μελέτες των συμπλόκων 1 – 3, 5 και 10 έδειξαν σιδηρομαγνητικές αλληλεπιδράσεις ενώ εκείνες των συμπλόκων 4, 6, 7 και 9 έδειξαν αντισιδηρομαγνητικές αλληλεπιδράσεις.
Προκειμένου να μελετηθεί σε βάθος η οικογένεια των βασικών καρβοξυλικών αλάτων του σιδήρου [Fe3O(O2CR)6(H2O)3]A, παρασκευάστηκαν δύο σειρές αυτών των συμπλόκων με R = CCl3, CHBr2, CH2F, CH2Cl, C(OH)Ph2, H, Ph, (CH2)3Cl, Me, CHMe2, Et και CMe3. Στην πρώτη σειρά συμπλόκων (17 - 28) το αντισταθμιστικό ιόν (Α) είναι ClO4-, ενώ στη δεύτερη (29 - 40) είναι NO3-. Η προσπάθεια απομόνωσης του ανάλογου με R = CF3 ήταν άκαρπη και για τα δύο αντισταθμιστικά ιόντα και οδήγησε σε ένα τετραπυρηνικό σύμπλοκο [Fe4O2(O2CCF3)8(H2O)6] (41) με δομή τύπου «πεταλούδας». Πραγματοποιήθηκαν μετρήσεις Mössbauer σε στερεά δείγματα και για τις δύο σειρές και οι ισομερείς μετατοπίσεις και οι τετραπολικές αλληλεπιδράσεις διαφέρουν μεταξύ 0.51 – 0.54 mms-1 και 0.36 – 0.76 mms-1 αντίστοιχα. Μετρήσεις Mössbauer και σε διαλύματα αυτών έδειξαν τη σταθερότητά τους και σε διάλυμα, με εξαίρεση το σύμπλοκο 29 (R = Cl3C, Α = NO3-) που οδήγησε σε σύμπλοκο τύπου «πεταλούδας».
Το υψηλής συμμετρίας σύμπλοκο [Fe3O(O2CPh)6(py)3](ClO4)∙py (42) έχει μελετηθεί στο παρελθόν κρυσταλλογραφικά αλλά και με μετρήσεις ανελαστικής σκέδασης νετρονίων IINS και είχε προταθεί ύπαρξη του μαγνητικού φαινομένου Jahn-Teller σε πολύ χαμηλές θερμοκρασίες. Θέλοντας να εξακριβωθεί εάν η μαγνητική συμμετρία σχετίζεται με την πραγματική, πραγματοποιήθηκαν κρυσταλλογραφικές μετρήσεις μεταβλητής θερμοκρασίας στο εργαστήριο ΒΜ01Α του ESRF. Τα αποτελέσματα των πειραματικών μετρήσεων έδειξαν ότι η πραγματική συμμετρία παραμένει ίδια. Στη συνέχεια από μετρήσεις μαγνητικής επιδεκτικότητας ac, παρατηρήθηκε η ύπαρξη μαγνητικών φαινομένων χαλάρωσης υπό την επίδραση ασθενών μαγνητικών πεδίων. / Seeking to study the coordination chemistry of the ligand di-2, 6-(2-pyridylcarbonyl) pyridine (dpcp) with 3d transition metal ions, the tetranuclear complexes [Cu4(N3)2{pyCO(OMe)pyCO(OMe)py}2(MeOH)2](ClO4)∙2MeOH (1∙2MeOH) and [Co4(N3)2(NO3)2{pyCO(OMe)pyCO(OMe)py}2]∙0.5MeOH (2∙0.5MeOH), the hexanuclear complex [Ni6(CO3)(N3)6{pyCOpyC(O)(OMe)py}3(MeOH)2(H2O)][Ni6(CO3)(N3)6{pyCOpyC(O) (OMe)py}3(MeOH)3](ClO4)2 (3∙1.8MeOH) and the dinuclear complex [Fe2{pyCO(OMe)py(Η)CO(OMe)py}2(MeO)2](ClO4)2∙(4∙MeOH) were synthesized. In addition, in order to study the coordination chemistry of the same ligand with mixed 3d transition metal ions and 4f lanthanide ions, the heterometallic dinuclear complexes [ΜIILnIII{pyCOH(OEt)pyCOH(OEt)py}3] (ClO4)2∙EtOH (5-16∙EtOH) were synthesized, with ΜΙΙ = CuΙΙ, CoΙΙ, NiΙΙ, ZnΙΙ, MnΙΙ, FeΙΙ [LnΙΙΙ = GdΙΙΙ (5 - 10), TbΙΙΙ (11 – 16) respectively]. All complexes were structurally characterized and complexes 4, 10 and 16 were characterized by Mössbauer spectroscopy. Magnetic properties measurements of complexes 1-3, 5 and 10 indicated the existence of ferromagnetic interactions, while those of 4, 6, 7 and 9 indicated the existence of antiferromagnetic interactions.
For the in depth study of the family of basic iron (III) carboxylates [Fe3O(O2CR)6(H2O)3]A, two series of complexes were prepared with R = Cl3C, CHBr2, CH2F, CH2Cl, C(OH)Ph2, H, Ph, Cl(CH2)3, Me, CHMe2, Et and Me3C. For the former series (17 - 28) the counteranion (A-) is ClO4- and for the latter (29 - 40) is NO3-. Attempts to prepare the respective trifluoroacetate (R = CF3) complexes were unsuccessful and the reaction system lead to the tetranuclear “butterfly” complex [Fe4O2(O2CCF3)8(H2O)6] (41), irrespective of whether perchlorates or nitrates were used as counteranions. Mössbauer studies revealed very similar isomer shifts for all complexes in the region of 0.51 – 0.54 mms-1, and variable quadrupole splittings, ranging from 0.36 to 0.76 mms-1. Mössbauer studies of the complexes were carried out in frozen MeCN solutions in order to assess their stability in solution and they proved to be stable in MeCN solutions, except complex 29 (R = Cl3C, Α = NO3-), which dissociated to a butterfly-type complex.
The high-symmetry cluster [Fe3O(O2CPh)6(py)3](ClO4)∙py (42) has been structurally characterized and its Inelastic Incoherent Neutron Scattering studies have been reported. These studies suggested the existence of a magnetic Jahn-Teller effect at lower temperatures. Seeking to study if there is any correlation between magnetic and structural symmetry, we undertook variable-temperature crystallographic studies on ESRF BM01A beamline. With the results of these data we concluded that the symmetry of the crystal remained. Moreover, we have discovered that this complex exhibits magnetic relaxation phenomena under weak magnetic fields, observed by ac magnetic susceptometry.
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