Posouzení vhodnosti termální vody pro relaxačně terapeutické využití / Assessment of the suitability of thermal water for the relaxational- therapeutic application

Lysý, Jakub

January 2010

My thesis is based on an assessment of the suitability of thermal spring in the Southern Moravia for a relaxing, therapeutic purposes. By capillary electrophoresis are measured concentration of natural substancies, which are used in thermal waters and are searched for therapeutic effects.

Nativní hyaluronan jako nosič hydrofobních molekul / Native hyaluronan as delivery agent for hydrophobic molecules

Michalicová, Petra

January 2013

Hyaluronan is a chemical, which can be qualified as essential for vertebrates. It is a part of the extracellular matrix in most of tissues and also a major component of some other tissues. Besides of the mechanical functions this compound is important for many biological processes such as growth of tumor cells. The objective of this thesis was development of carrier systems containing native hyaluronan and hydrophobic drugs. For purposes of this work fluorescence probes (pyrene, prodan, perylene, DPH, mereocynine 540) instead of drugs were used. By using further mentioned sophisticated methods the properties of these systems were studied. The systems were prepared by freeze-drying. The effect of freeze-drying on support of interactions was observed by fluorescence spectrometry (steady-state and time-resolved). The stability of freeze-dried systems was determined by zeta potential, which was measured by electrophoretic light scattering. Cakes obtained by freeze-drying were analyzed by several methods. First one was effluence gas chromatography connected with FT-IR spectrometry. In this method the present of tertiary butyl alcohol in product was observed. The cakes were also analyzed by scanning electron microscopy, which can provide the information about the surface and elemental constitution of the material. The results of this work can shed light on the area of developing of drugs with targeted distribution of active compound.

EXPANDING EXPERIMENTAL AND ANALYTICAL TECHNIQUES FOR THE CHARACTERIZATION OF MACROMOLECULAR STRUCTURES

Lenart, William R

01 June 2020

No description available.

Polymers

Physical Chemistry

Engineering

Experiments

Materials Science

Nanotechnology

Nanoscience

Physics

Polymer Chemistry

resistive pulse sensing

small-angle neutron scattering

virus-like particle

phytoglycogen

Brownian motion

electrophoretic motion

electrophoresis

translocation

star polymer

PNIPAM

Qbeta

VLP

SANS

RPS

Interactions peptides antibactériens - surfaces bactériennes : Etude de la carnobactériocine Cbn BM1, une bactériocine de classe IIa / Antimicrobial peptide - bacterial surfaces interactions : Study of the class IIa bacteriocin Cbn BM1

Jacquet, Thibaut

23 November 2011

Les bactériocines de classe IIa présentent une activité antimicrobienne résultant d'un mécanisme d'action ciblant les membranes des bactéries à Gram positif. Cette activité est modulée par différentes caractéristiques des surfaces bactériennes. Les propriétés physico-chimiques de surface de dix-huit souches bactériennes ont été déterminées afin d'étudier le lien entre ces propriétés et les phénotypes de résistance/sensibilité à Cbn BM1. Les résultats obtenus indiquent une grande diversité des propriétés physico-chimiques des surfaces analysées, sans cependant permettre d’établir un lien entre celles-ci et le phénotype de sensibilité/résistance à CbnBM1. Les mécanismes d'action de Cbn BM1 ont ensuite été étudiés sur Carnobacterium maltaromaticum DSM20730 et Listeria monocytogenes EGDe. L'atteinte de l'intégrité physique des membranes plasmiques par l'action de Cbn BM1 montre une hétérogénéité de réponse des populations bactériennes. Ce résultat a été confirmé par microscopie de force atomique in vivo à haute résolution. L'interaction de Cbn BM1 avec les membranes a été mise en évidence par mesure de l'anisotropie de fluorescence. Cette approche a révélé que Cbn BM1 présente des degrés de pénétration différents dans la membrane de C. maltaromaticum DSM20730 par rapport à L. monocytogenes EGDe. L'action de Cbn BM1 conduit cependant, pour les deux souches, à la modification de la force protomotrice membranaire. Ces différentes approches retenues pour l'étude des mécanismes d'action ont révélé que C. maltaromaticum DSM20730 et L. monocytogenes EGDe présentent une sensibilité à Cbn BM1 uniquement lorsque les cellules sont en phase exponentielle de croissance. / The antimicrobial activity of class IIa bacteriocins toward Gram positive bacteria relies on their membrane targeting mechanisms of action. These mechanisms are modulated by the bacterial surface properties. The physico-chemical surface properties of eighteen bacterial strains were determined to link these properties to the resistance/sensitivity to Cbn BM1 of the bacterial strains. In this way, two approaches were undertaken : the microbial adhesion to solvents and electrophoretic mobility measurements. The results show a large diversity of the determined properties among the strains but without establishing a direct link between the surface properties and the resistance/sensitivity phenotypes. Mechanisms of action of the bacteriocin Cbn BM1 on Carnobacterium maltaromaticum DSM20730 and Listeria monocytogenes EGDe were determined. Syto9® and propidium iodide allowed to show the heterogeneity of the bacterial populations toward the alteration of the membrane integrity. The interaction of Cbn BM1 with the bacterial membrane was studied by monitoring the fluorescence anisotropy of DPH and TMA-DPH. The results highlight a difference between the mechanism of action of Cbn BM1 on C. maltaromaticum DSM20730 and on L. monocytogenes EGDe. However, a treatment by Cbn BM1 leads to a perturbation of the component of the proton-motive force of the membrane for both strains. These approaches revealed that these bacterial strains exhibit a sensitivity to Cbn BM1 only when treated in log growth phase. Modification of nano-mechanical properties of C. maltaromaticum DSM20730 after a treatment by Cbn BM1 were assessed by an atomic force microscopy approach.

Carnobactériocine Cbn BM1

Listeria

Carnobacterium

Mécanisme d'action

Anisotropie de flurescence

Microscopie de force atomique

Mobilité électrophorétique

Adhésion aux solvants

Force proto-motrice

Carnobacteriocin Cbn BM1

Listeria

Carnobacterium

Mechanism of action

Fluorescence anisotropy

Atomic force microscopy

Electrophoretic mobility

Adhesion to solvents

Proton-motive force

630

Keramische Membranen auf Basis LPS-SiC: Schlickerentwicklung und Beschichtungsverfahren

Piwonski, Michael

23 December 2005

Die Filtration unter aggressiven Einsatzbedingungen, z.B. Einsatz in korrosiven Medien, Abgasfiltration, stellt besondere Anforderungen an das Filtermaterial. Sogenanntes "Liquid Phase Sintered Silicon Carbide" (LPS-SiC) erfüllt die Anforderungen sehr gut. Deshalb bestand das Ziel der Arbeit besteht darin, erstmals aus LPS-SiC asymmetrische keramische Membranen (grobporöses Substrat mit dünner, feinporiger Membran) herzustellen. Als Additivsystem fanden Yttriumoxid und Aluminiumoxid Verwendung. Es wurde Siliciumcarbid der Körnung F1200 auf Substrat der Körnung F500 abgeschieden. Dem Herstellungsverfahren kommt für die Qualität der Membran eine große Bedeutung zu. Daher wurden in dieser Arbeit folgende Beschichtungsmethoden untersucht, um die optimale Methode zu identifizieren: Tauchbeschichtung, elektrophoretische Abscheidung, Druckfiltration und Einsatz von Transfertapes (Transfertapes: Mischung aus Polyacrylatkleber und Pulver). Im Mittelpunkt stand dabei die Druckfiltration. Hierfür wurde eine neue Apparatur konzipiert und aufgebaut. Für die schlickerbasierten Methoden wurde ein wässriges System entwickelt, bei dem auf den Einsatz von organischen Hilfsstoffen verzichtet werden konnte. Die elektrostatische Stabilisierung konnte durch gezieltes Anlösen von Yttriumoxid, Ausfällen von feinskaligem Yttriumhydroxid und Belegung des Siliciumcarbids mit dem Yttriumhydroxid erreicht werden. Die Elektrophorese führte zu keinen befriedigenden Ergebnissen aufgrund des undefinierten spezifischen Widerstandes des Substrats (siehe Dissertation Jan Ihle, Bergakademie Freiberg 2004). Die Druckfiltration erwies sich als das geeignetste Verfahren. Mit ihr konnten ohne Einschränkungen hochwertige Membranen erzeugt werden. Druck und Zeit sind bei gegebenen Feststoffgehalt frei wählbar. Der Druck wurde zwischen 2*10E4 und 1*10E5 Pa variiert. Höherer Druck führte zu feineren Porengrößen (mittlere und maximale Porengröße). Mit der Druckfiltration konnten Membranen ohne makroskopische Defekte erzeugt werden. Sie führte im Vergleich aller Verfahren zu der geringsten Rauhtiefe der Membranen. Die Tauchbeschichtung ließ sich in diesem System nur über den Feststoffgehalt steuern. Membranen aus der Tauchbeschichtung wiesen makroskopische Fehler (große oberflächliche Poren) auf. Die Methode führte hinsichtlich Porengrößen und Rauhtiefe zu den schlechtesten Werten. Die Transfertape-Methode als neuartiger Ansatz erwies sich für das LPS-SiC System als noch nicht ausgereift. Das direkte Bekleben der Substrate war möglich. Hinsichtlich der Membrandicke sind aber Grenzen bei ca. 50 µm gesetzt. Darüber hinaus reißen die Membranen. Es wurden Schwankungen in der Entbinder- und Sinterschwindung verzeichnet. Weiterhin werden große Hohlräume im Substrat nicht von den Transfertapes abgeformt. Beide Effekte erhöhen die Spannungen beim Sintern, so dass bei geringeren Schichtdicken Risse entstehen. / Silicon Carbide (SiC) fulfills many requirements, e.g. a high robustness in terms of corrosion, which makes it a suitable Material for ceramic membranes. The aim of this work was to produce ceramic membranes out of porous liquid phase sintered Silicon Carbide (LPS-SiC). As additives Alumina and Yttria were used. The SiC based on commercial abrasive powders F1200 (Membrane) and F500 (Substrate). Different techniques of membrane formation were applied in order to find the optimum processing procedure: Dip Coating, Electrophoretic Deposition (EPD), Pressure Filtration and the usage of so called Transfer Tapes, a blend of Polyacrylate and ceramic powders). For the slip based methods a water based system was developed without the need of organic additives. A pure electrostatic stabilization was facilitated by solving Yttria with Hydrochloride Acid and precipitation, resulting in the coverage of the SiC particles with finely dispersed Yttria. The EPD was not successful due to a undefined specific resistance of the substrate. The pressure filtration turned out to be the best, most versatile method, leading to defect free membranes with the lowest measured surface roughness. The pressure ranged between 2*10E4 and 1*10E5 Pa. Higher pressure lead to finer pores. The Dip Coating was controlled only by the solids content. Membranes by Dip Coating showed macroscopic defects. As a new concept for ceramic membrane fabrication the Transfer Tapes needed further investigation. The direct gluing on the substrate was possible. The thickness of the membrane was limited to 50 microns in order to keep free of cracks. The Transfer Tapes exhibited pronounced fluctuations in the debinding and sintering shrinkage, leading to increased tension during sintering. Furthermore cavities, (e.g. big pores) were bridged. Both effects lead to increased tension during sintering.

Aluminiumoxid

Druckfiltration

Elektrophoretische Abscheidung

Flüssigphasensinterung

Keramik

Membranen

Siliciumcarbid (SiC)

Tauchbeschichtung

Transfertapes

Yttriumoxid

elektrostatische Stabilisierung

Alumina

Dip Coating

Electrophoretic Deposition

Liquid Phase Sintered

Pressure Filtration

Silicon Carbide

Transfer Tapes

Yttria

adhesive bonding

ceramic

electrostatic Stabilization

membranes

ddc:620

rvk:ZM 8180

Filter

Flüssiger Zustand

Poröse Membran

Sintern

Understanding the Role of ZCF32, a Zinc Cluster Transcription Factor, in Candida albicans Biology

Kakade, Pallavi

January 2017

As a human fungal pathogen, Candida albicans can cause a wide variety of disease conditions ranging from superficial to systemic infections. Many of these infections are caused by an inherent ability of the pathogen to form biofilms on medical devices resulting in high mortality. Biofilms formed by C. albicans are a complex consortium of yeast and hyphal cells embedded in an extracellular matrix and are regulated by a network of transcription factors. Here, I report the role of a novel Zn(II)2-Cys6 binuclear cluster transcription factor, ZCF32, in the regulation of biofilm formation. Global transcriptome analysis reveals that biofilm development is the most altered pathway in the zcf32 null mutant. To delineate the functional correlation between ZCF32 and biofilm development, the set of genes directly regulated by Zcf32 were determined. The data suggest that Zcf32 regulates biofilm formation by repressing the expression of adhesins, chitinases and a significant number of other GPI-anchored proteins. The data presented here establish that there is the lesser recruitment of Zcf32 on the promoters of biofilm genes in biofilm condition compared to the planktonic mode of growth. Thus, the transcription factor ZCF32 negatively regulates biofilm development in C. albicans. Candida albicans, carries an expanded family of Zn(II)2Cys6 transcription factors. A CTG clade-specific protein Zcf32 and its closely related protein Upc2, a well-conserved protein across the various fungal species, belong to this family of proteins. Unlike Upc2, Zcf32 is poorly studied in C. albicans. Here, I examined roles played by these two related transcription factors in biofilm development and virulence of C. albicans. The data show that the null mutants of each of ZCF32 or UPC2 form better biofilms than the wild-type suggesting that both of them negatively regulate the biofilm development. While acting as negative regulators of biofilm formation, these two transcription factors target a different set of biofilm genes. A mouse model of candidiasis reveals that zcf32/zcf32 was hypervirulent while upc2/upc2 shows compromised virulence compared to the wild-type. Notably, the absence of Zcf32 enhances detrimental inflammation brought about by TNFα, IFNβ, and IFNγ. upc2/upc2 failed to generate a similar feedback, instead demonstrated an elevated anti-inflammatory (IL4 and IL10) host response. Taking together, the data exhibit how a recently evolved transcription factor Zcf32 retained functional resemblance with a more ubiquitous member Upc2 but also functionally diverged from the latter in the regulation of virulence of the pathogen.

ZCF32 - Zinc Cluster

ZCF32 - Candida Albicans Biology

Electrophoretic Mobility Shift Assay

Zinc Finger TFs

C. albicans

Zn(II)2 Cys6 Transcription Factor

Zinc Cluster Proteins

Microbiology and Cell Biology

Microssistemas eletroforéticos em materiais poliméricos de duplo canal com detecção amperométrica / Electrophoretic microsystems in polymeric materials dual channel with amperometric detection

Santos, Diógenes Meneses dos

25 May 2014

Electrophoretic microsystems (EM) are powerful tools for the separation of species of microsystems analyzes which can easily be combined with electrochemical detection (ECD) and therefore making it ideal for a method of detection. However, the influence of high voltage at the working electrode used for the separation is a problem to be overcome due to the increased signal/noise ratio and possible damage of the electrode and/or the potentiostat. Thus, it was proposed in this thesis one EM hybrid PDMS / glass configuration with dual-channel potentiostat coupled to an electrically isolated in order to minimize the influence of high potential in the separation channel and improve the separation efficiency of the species and subsequently, improve detection limits. The EM contains two separate parallel channels 200 microns and a channel separation and another reference, and each containing a platinum electrode 15 or 50 μm placed about 1 to 4 μm in the channel. An electrode served as the working electrode, positioned in the separation channel, and another electrode as reference electrode, placed in the reference channel. This configuration associated with the electrically isolated potentiostat allowed the amperometric signals were measured without any change or potential interference arising from the high voltage applied separation. Aiming to evaluate the effectiveness of the methodology proposed in this thesis, samples nitrite, tyrosine and peroxynitrite (reactive nitrogen species – RNS), hydrogen peroxide (reactive oxygen species – ROS), ascorbic acid, glutathione and cysteine were injected into the channel containing the working electrode, while simultaneously boric acid buffer pH 11 containing TTAB was injected into the reference channel containing the reference electrode. From this configuration, we obtained a significant reduction in noise level (about 0.94 pA) and a relative improvement in the resolution ratified by electropherograms, compared with using single channel configuration. The limits of detection (LOD) for the chemical species mentioned above were 0.58 μM, 0.14 μM, 0.75 μM, 0.21 μM, 0.82 μM, was not obtained for cysteine and 1.63 μM, respectively. The efficiency can also be seen by analyzing nitrite performed on samples of perfusate blood of sheeps and rats, where have been detected a concentration of 68.05 μM and 22.04 μM, respectively, by the proposed method. It was also proposed in this thesis, microfabrication and evaluation of a PMMA electrophoretic microsystem with single channel configuration coupled to a base made of the same material to fix the microchip with electrochemical detection using a carbon paste electrode. The purpose of the construction of the base was to obtain, by fixing, reproducibility of events. And the microfabrication of PMMA EM aimed the viability of its use in analysis perspective as having the lowest cost per unit made due to the use of CO2 laser for microfabrication, which has a value considerably lower, compared with photolithographic processes. The evaluation of this system was performed through the analysis standards of serotonin and acetaminophen, which proved that the microfabrication of this system showed good reproducibility and repeatability of events, making it viable processing. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Os microssistemas eletroforéticos (MSE) são ferramentas poderosas para a separação de espécies em microssistemas de análises, onde pode ser facilmente combinada com detecção eletroquímica (DEQ) e tornando-se, portanto, um método de detecção ideal. No entanto, a influência da alta tensão no eletrodo de trabalho utilizada para a separação é um problema a ser contornado devido o aumento da relação sinal/ruído e possíveis danificações do eletrodo e/ou do potenciostato. Assim, foi proposto nesta tese um MSE híbrido de PDMS/vidro com configuração de duplo-canal acoplado a um potenciostato eletricamente isolado com objetivo de minimizar a influência do elevado potencial no canal de separação e melhorar a eficiência de separação das espécies e, subsequentemente, melhorar os limites de detecção. O MSE contém dois canais paralelos separados 200 μm, sendo um canal de separação e outro de referência, e cada um deles contendo um eletrodo de platina de 15 ou 50 μm colocados cerca de 1 a 4 μm dentro do canal. Um eletrodo serviu como eletrodo de trabalho, posicionado no canal de separação, e o outro eletrodo como eletrodo de referência, posicionado no canal de referência. Essa configuração associado ao potenciostato eletricamente isolado permitiu que os sinais amperométricos fossem medidos sem qualquer mudança de potencial ou de interferência oriunda da alta tensão de separação aplicada. Objetivando avaliar a eficiência da metodologia proposta nessa tese, amostras de nitrito e peroxinitrito (espécies reativas de nitrogênio – ERN), tirosina, peróxido de hidrogênio (espécie reativa de oxigênio – ERO), ácido ascórbico, glutationa e cisteína foram injetadas no canal contendo o eletrodo de trabalho, enquanto que simultaneamente o tampão de ácido bórico contendo TTAB pH 11 foi injetado no canal de referência contendo o eletrodo de referência. A partir desta configuração, obteve-se uma significativa diminuição no nível de ruído (cerca de 0,94 pA) e uma relativa melhora na resolução ratificadas pelos eletroferogramas, se comparado com a configuração que utiliza canal único. Os limites de detecção (LOD) para as espécies químicas supracitados foram de 0,58 μM, 0,14 μM, 0,75 μM, 0,21 μM, 0,82 μM, não foi obtida para a cisteína, e 1,63 μM, respectivamente. A eficiência também pode ser vista através das análises de nitrito realizadas em amostras de perfusato de sangue de ovelhas e ratos, onde foram detectados uma concentração de 68,05 μM e 22,04 μM, respectivamente, através da metodologia proposta. Foi proposto também nessa tese, a microfabricação e avaliação de um microssistema eletroforético de PMMA com configuração de canal único acoplado a uma base feita do mesmo material para fixar o microchip, com detecção eletroquímica usando eletrodo de pasta de carbono. O objetivo da construção da base foi obter, através da fixação, reprodutibilidade de eventos. E a microfabricação do MSE de PMMA objetivou a viabilidade do seu uso em análises tendo como perspectiva o baixo custo por unidade confeccionada devido ao uso de laser de CO2 para a microfabricação, o qual possui um valor agregado consideravelmente menor, se comparado com os processos fotolitográficos. A avaliação desse sistema foi feita através das análises de padrões de serotonina e acetaminofeno, onde comprovou-se que a microfabricação desse sistema apresentou boa reprodutibilidade e repetitividade de eventos, tornando-se viável o seu processamento.

Eletroforese em microchip

Detecção eletroquímica

Espécies reativas de oxigênio (ERO)

Espécies reativas de nitrogênio (ERN)

Microfluídicos de PMMA

Microchip electrophoresis

Electrochemical detection

Reactive oxygen species (ROS)

Reactive Nitrogen Species (RNS)

Microfluidics of PMMA

Additive Fertigung von Keramiken mittels Mikrofluidik und elektrophoretischer Abscheidung

Vogt, Lorenz

14 January 2021

In dieser Dissertation wurde untersucht, inwieweit die Kombination von Mikrofluidik mit elektrophoretischer Formgebung zur additiven Herstellung von Keramikbauteilen genutzt werden kann. Mit Verfahren der Mikrofluidik sollten räumliche Strukturierung und Materialdifferenzierung erfolgen, während die elektrophoretische Abscheidung für die Ausbildung einer homogenen Mikrostruktur sorgt. Es wurde eine Versuchsanlage aufgebaut, die eine kontrollierte elektrophoretische Abscheidung von Keramikpartikeln, die durch eine Hohlelektrode zugeführt werden, auf porösen Membranen ermöglicht. Die Anlage bietet – im Unterschied zu bereits beschriebenen Verfahren – das Potenzial für eine hochgradige Parallelisierung und Multimaterialdruck. Schließlich wurden Finite-Elemente-Modelle zur Feldverteilung und zur Partikelbewegung entwickelt, mit denen die experimentellen Ergebnisse verglichen wurden. Bei den Versuchen traten viele in ihrem Ausmaß nicht erwartete Phänomene auf: elektrohydrodynamische Effekte und nichtelektrisch verursachte Strömungen des Lösungsmittels, die die Ausbeute und Reproduzierbarkeit sowie die Eigenschaften der abgeschiedenen Strukturen verschlechterten, was zusätzlichen Untersuchungen notwendig machte. In Ethanol wurden relevante Abscheideparameter systematisch variiert und die Struktur und das Gefüge der abgeschiedenen Al2O3-Partikel methodisch analysiert. Die Arbeit war Teil eines von der Deutschen Forschungsgemeinschaft geförderten Sachbeihilfe-Projekts (KU 1327/10-1 | RA 614/7-1).:Inhaltsverzeichnis 1 Einleitung 7 2 Stand der Forschung 8 2.1 Stand der Forschung additive Fertigung keramischer Bauteile 8 2.1.1 Feedstockbasierte additive Fertigungsverfahren 9 2.1.2 Pulverbasierte additive Fertigungsverfahren: 10 2.1.3 Schlickerbasierte additive Fertigungsverfahren 11 2.2 Stand der Forschung elektrophoretische Abscheidung 12 2.3 Stand der Forschung Dielektrophorese 15 2.4 Stand der Forschung EHD-Effekt 16 3 Methodisches Vorgehen 19 3.1 Allgemeiner Aufbau 19 3.2 Elektroden 22 3.3 Lösungsmittel 24 3.4 Abscheidemembranen 25 3.5 Partikel und Suspensionen 27 3.6 Durchführung der Depositionsexperimente 30 3.7 Analyse der abgeschiedenen Strukturen 32 3.7.1 Konfokale 3D Laserscanningmikroskopie (CLSM) 32 3.7.2 Dynamische Differenzkalorimetrie und Thermogravimetrie (DSC/TGA) 33 3.7.3 Rasterelektronenmikroskopie (REM) und Varianzanalyse 33 4 Computersimulationen 35 5 Experimentelle Ergebnisse 41 5.1 Untersuchung des EHD-Effekts 41 5.2 Abscheidung mit verschiedenen Lösungsmitteln und Partikeln 45 5.3 Abscheidung von PEI-Aluminiumoxidpartikeln in Ethanol 51 5.4 DSC-TGA einer bedruckten Membran 60 5.5 Varianzanalyse der Gefügehomogenität elektrophoretisch abgeschiedener Proben 63 6 Zusammenfassung und Ausblick 66 7 Quellenverzeichnis 69 8 Formelverzeichnis 78 9 Tabellenverzeichnis 78 10 Abbildungsverzeichnis 79 11 Anhang 83 / In this dissertation it was examined to what extent the combination of microfluidics with electrophoretic shaping can be used for the additive manufacturing of ceramic components. The spatial structuring and material differentiation should take place using microfluidic methods, while the electrophoretic deposition ensures the formation of a homogeneous microstructure. A test facility was set up that enables controlled electrophoretic deposition of ceramic particles, which are fed through a hollow electrode, onto porous membranes. In contrast to known processes, the system offers the potential for high-quality parallelization and multi-material printing. Finally, finite element models for field distribution and particle movement were developed, with which the experimental results were compared. During the experiments, many phenomena that were not expected occurred: electrohydrodynamic effects and non-electrically induced solvent flows, which reduced the yield and reproducibility as well as the properties of the deposited structures, that made additional studies necessary. We systematically varied relevant deposition parameters in the solvent ethanol and the microstructure of the deposited Al2O3 particles was methodically analyzed. The work was part of a research grant project funded by the German Research Foundation (KU 1327 / 10-1 | RA 614 / 7-1).:Inhaltsverzeichnis 1 Einleitung 7 2 Stand der Forschung 8 2.1 Stand der Forschung additive Fertigung keramischer Bauteile 8 2.1.1 Feedstockbasierte additive Fertigungsverfahren 9 2.1.2 Pulverbasierte additive Fertigungsverfahren: 10 2.1.3 Schlickerbasierte additive Fertigungsverfahren 11 2.2 Stand der Forschung elektrophoretische Abscheidung 12 2.3 Stand der Forschung Dielektrophorese 15 2.4 Stand der Forschung EHD-Effekt 16 3 Methodisches Vorgehen 19 3.1 Allgemeiner Aufbau 19 3.2 Elektroden 22 3.3 Lösungsmittel 24 3.4 Abscheidemembranen 25 3.5 Partikel und Suspensionen 27 3.6 Durchführung der Depositionsexperimente 30 3.7 Analyse der abgeschiedenen Strukturen 32 3.7.1 Konfokale 3D Laserscanningmikroskopie (CLSM) 32 3.7.2 Dynamische Differenzkalorimetrie und Thermogravimetrie (DSC/TGA) 33 3.7.3 Rasterelektronenmikroskopie (REM) und Varianzanalyse 33 4 Computersimulationen 35 5 Experimentelle Ergebnisse 41 5.1 Untersuchung des EHD-Effekts 41 5.2 Abscheidung mit verschiedenen Lösungsmitteln und Partikeln 45 5.3 Abscheidung von PEI-Aluminiumoxidpartikeln in Ethanol 51 5.4 DSC-TGA einer bedruckten Membran 60 5.5 Varianzanalyse der Gefügehomogenität elektrophoretisch abgeschiedener Proben 63 6 Zusammenfassung und Ausblick 66 7 Quellenverzeichnis 69 8 Formelverzeichnis 78 9 Tabellenverzeichnis 78 10 Abbildungsverzeichnis 79 11 Anhang 83

info:eu-repo/classification/ddc/620

ddc:620

Keramische Membranen auf Basis LPS-SiC: Schlickerentwicklung und Beschichtungsverfahren

Piwonski, Michael

13 December 2005

Die Filtration unter aggressiven Einsatzbedingungen, z.B. Einsatz in korrosiven Medien, Abgasfiltration, stellt besondere Anforderungen an das Filtermaterial. Sogenanntes "Liquid Phase Sintered Silicon Carbide" (LPS-SiC) erfüllt die Anforderungen sehr gut. Deshalb bestand das Ziel der Arbeit besteht darin, erstmals aus LPS-SiC asymmetrische keramische Membranen (grobporöses Substrat mit dünner, feinporiger Membran) herzustellen. Als Additivsystem fanden Yttriumoxid und Aluminiumoxid Verwendung. Es wurde Siliciumcarbid der Körnung F1200 auf Substrat der Körnung F500 abgeschieden. Dem Herstellungsverfahren kommt für die Qualität der Membran eine große Bedeutung zu. Daher wurden in dieser Arbeit folgende Beschichtungsmethoden untersucht, um die optimale Methode zu identifizieren: Tauchbeschichtung, elektrophoretische Abscheidung, Druckfiltration und Einsatz von Transfertapes (Transfertapes: Mischung aus Polyacrylatkleber und Pulver). Im Mittelpunkt stand dabei die Druckfiltration. Hierfür wurde eine neue Apparatur konzipiert und aufgebaut. Für die schlickerbasierten Methoden wurde ein wässriges System entwickelt, bei dem auf den Einsatz von organischen Hilfsstoffen verzichtet werden konnte. Die elektrostatische Stabilisierung konnte durch gezieltes Anlösen von Yttriumoxid, Ausfällen von feinskaligem Yttriumhydroxid und Belegung des Siliciumcarbids mit dem Yttriumhydroxid erreicht werden. Die Elektrophorese führte zu keinen befriedigenden Ergebnissen aufgrund des undefinierten spezifischen Widerstandes des Substrats (siehe Dissertation Jan Ihle, Bergakademie Freiberg 2004). Die Druckfiltration erwies sich als das geeignetste Verfahren. Mit ihr konnten ohne Einschränkungen hochwertige Membranen erzeugt werden. Druck und Zeit sind bei gegebenen Feststoffgehalt frei wählbar. Der Druck wurde zwischen 2*10E4 und 1*10E5 Pa variiert. Höherer Druck führte zu feineren Porengrößen (mittlere und maximale Porengröße). Mit der Druckfiltration konnten Membranen ohne makroskopische Defekte erzeugt werden. Sie führte im Vergleich aller Verfahren zu der geringsten Rauhtiefe der Membranen. Die Tauchbeschichtung ließ sich in diesem System nur über den Feststoffgehalt steuern. Membranen aus der Tauchbeschichtung wiesen makroskopische Fehler (große oberflächliche Poren) auf. Die Methode führte hinsichtlich Porengrößen und Rauhtiefe zu den schlechtesten Werten. Die Transfertape-Methode als neuartiger Ansatz erwies sich für das LPS-SiC System als noch nicht ausgereift. Das direkte Bekleben der Substrate war möglich. Hinsichtlich der Membrandicke sind aber Grenzen bei ca. 50 µm gesetzt. Darüber hinaus reißen die Membranen. Es wurden Schwankungen in der Entbinder- und Sinterschwindung verzeichnet. Weiterhin werden große Hohlräume im Substrat nicht von den Transfertapes abgeformt. Beide Effekte erhöhen die Spannungen beim Sintern, so dass bei geringeren Schichtdicken Risse entstehen. / Silicon Carbide (SiC) fulfills many requirements, e.g. a high robustness in terms of corrosion, which makes it a suitable Material for ceramic membranes. The aim of this work was to produce ceramic membranes out of porous liquid phase sintered Silicon Carbide (LPS-SiC). As additives Alumina and Yttria were used. The SiC based on commercial abrasive powders F1200 (Membrane) and F500 (Substrate). Different techniques of membrane formation were applied in order to find the optimum processing procedure: Dip Coating, Electrophoretic Deposition (EPD), Pressure Filtration and the usage of so called Transfer Tapes, a blend of Polyacrylate and ceramic powders). For the slip based methods a water based system was developed without the need of organic additives. A pure electrostatic stabilization was facilitated by solving Yttria with Hydrochloride Acid and precipitation, resulting in the coverage of the SiC particles with finely dispersed Yttria. The EPD was not successful due to a undefined specific resistance of the substrate. The pressure filtration turned out to be the best, most versatile method, leading to defect free membranes with the lowest measured surface roughness. The pressure ranged between 2*10E4 and 1*10E5 Pa. Higher pressure lead to finer pores. The Dip Coating was controlled only by the solids content. Membranes by Dip Coating showed macroscopic defects. As a new concept for ceramic membrane fabrication the Transfer Tapes needed further investigation. The direct gluing on the substrate was possible. The thickness of the membrane was limited to 50 microns in order to keep free of cracks. The Transfer Tapes exhibited pronounced fluctuations in the debinding and sintering shrinkage, leading to increased tension during sintering. Furthermore cavities, (e.g. big pores) were bridged. Both effects lead to increased tension during sintering.

info:eu-repo/classification/ddc/620

ddc:620

Enhanced DNA binding capacity on up-regulated epidermal wild-type p53 in vitiligo by H2O2-mediated oxidation: a possible repair mechanism for DNA damage

Salem, Mohamed M.A., Shalbaf, Mohammad, Gibbons, Nick C., Chavan, Bhavan, Thornton, M. Julie, Schallreuter, Karin U.

January 2009

No / Vitiligo is characterized by a patchy loss of inherited skin color affecting approximately 0.5% of individuals of all races. Despite the absence of the protecting pigment and the overwhelming evidence for hydrogen peroxide (H(2)O(2))-induced oxidative stress in the entire epidermis of these patients, there is neither increased photodamage/skin aging nor a higher incidence for sun-induced nonmelanoma skin cancer. Here we demonstrate for the first time increased DNA damage via 8-oxoguanine in the skin and plasma in association with epidermal up-regulated phosphorylated/acetylated p53 and high levels of the p53 antagonist p76(MDM2). Short-patch base-excision repair via hOgg1, APE1, and polymerasebeta DNA repair is up-regulated. Overexpression of Bcl-2 and low caspase 3 and cytochrome c levels argue against increased apoptosis in this disease. Moreover, we show the presence of high epidermal peroxynitrite (ONOO(-)) levels via nitrotyrosine together with high nitrated p53 levels. We demonstrate by EMSA that nitration of p53 by ONOO(-) (300 x 10(-6) M) abrogates DNA binding, while H(2)O(2)-oxidized p53 (10(-3) M) enhances DNA binding capacity and prevents ONOO(-)-induced abrogation of DNA binding. Taken together, we add a novel reactive oxygen species to the list of oxidative stress inducers in vitiligo. Moreover, we propose up-regulated wild-type p53 together with p76(MDM2) as major players in the control of DNA damage/repair and prevention of photodamage and nonmelanoma skin cancer in vitiligo.

Adult

Apoptosis

Physiology

Ataxia Telangiectasia Mutated Proteins

Caspase 3

Biosynthesis

Cell cycle proteins

Metabolism

Cytochromes c

DNA

DNA damage

Drug effects

DNA repair

DNA-binding proteins

Electrophoretic mobility shift assay

Epidermis

Guanosine

Analogs & derivatives

Humans

Hydrogen peroxide

Pharmacology

Middle aged

Oxidation-reduction

Oxidative stress

Peroxynitrous acid

Protein-Serine-Threonine Kinases

Proto-Oncogene Proteins c-bcl-2

Proto-Oncogene Proteins c-mdm2

Tumor Suppressor Protein p53

Tumor Suppressor Proteins

Up-Regulation

Vitiligo

p300-CBP Transcription Factors

REF 2014