@phdthesis{Buha2008,
  author    = {Buha, Jelena},
  title     = {Nonaqueous syntheses of metal oxide and metal nitride nanoparticles},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-18368},
  school      = {Universit{\"a}t Potsdam},
  year      = {2008},
  abstract  = {Nanostructured materials are materials consisting of nanoparticulate building blocks on the scale of nanometers (i.e. 10-9 m). Composition, crystallinity and morphology can enhance or even induce new properties of the materials, which are desirable for todays and future technological applications. In this work, we have shown new strategies to synthesise metal oxide and metal nitride nanomaterials. The first part of the work deals with the study of nonaqueous synthesis of metal oxide nanoparticles. We succeeded in the synthesis of In2O3 nanopartcles where we could clearly influence the morphology by varying the type of the precursors and the solvents; of ZnO mesocrystals by using acetonitrile as a solvent; of transition metal oxides (Nb2O5, Ta2O5 and HfO2) that are particularly hard to obtain on the nanoscale and other technologically important materials. Solvothermal synthesis however is not restricted to formation of oxide materials only. In the second part we show examples of nonaqueous, solvothermal reactions of metal nitrides, but the main focus lies on the investigation of the influence of different morphologies of metal oxide precursors on the formation of the metal nitride nanoparticles. In spite of various reports, the number and variety of nanocrystalline metal nitrides is marginally small by comparison to metal oxides; hence preformed metal oxides as precursors for the preparation of metal nitrides are a logical choice. By reacting oxide nanoparticles with cyanamide, urea or melamine, at temperatures of 800 to 900 °C under nitrogen flow metal nitrides could be obtained. We studied in detail the influence of the starting material and realized that size, crystallinity, type of nitrogen source and temperature play the most important role. We have managed to propose and verify a dissolution-recrystallisation model as the formation mechanism. Furthermore we could show that the initial morphology of the oxides could be retained when ammonia flow was used instead.},
  language  = {en}
}
@phdthesis{Nazaran2008,
  author    = {Nazaran, Pantea},
  title     = {Nucleation in emulsion polymerization : steps towards a non-micellar nucleation theory},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-17521},
  school      = {Universit{\"a}t Potsdam},
  year      = {2008},
  abstract  = {For more than 70 years, understanding of the mechanism of particle nucleation in emulsion polymerization has been one of the most challenging issues in heterophase polymerization research. Within this work a comprehensive experimental study of particle nucleation in emulsion polymerization of styrene at 70 °C and variety of conditions has been performed. To follow the onset of nucleation, on-line conductivity measurements were applied. This technique is highly sensitive to the mobility of conducting species and hence, it can be employed to follow aggregation processes leading to particle formation. On the other hand, by recording the optical transmission (turbidity) of the reaction mixture particle growth was followed. Complementary to the on-line investigations, off-line characterizations of the particle morphology and the molecular weight have been performed. The aim was to achieve a better insight in the processes taking place after starting the reaction via particle nucleation until formation of colloidally stable latex particles. With this experimental protocol the initial period of styrene emulsion polymerization in the absence as well as in the presence of various surfactants (concentrations above and below the critical micellization concentration) and also in the presence of seed particles has been investigated. Ionic and non-ionic initiators (hydrophilic and hydrophobic types) have been applied to start the polymerizations. Following the above algorithm, experimental evidence has been obtained showing the possibility of performing surfactant-free emulsion polymerization of styrene with oil-soluble initiators. The duration of the pre-nucleation period (that is the time between starting the polymerization and nucleation) can be precisely adjusted with the initiator hydrophobicity, the equilibration time of styrene in water, and the surfactant concentration. Spontaneous emulsification of monomer in water, as soon as both phases are brought into contact, is a key factor to explain the experimental results. The equilibration time of monomer in water as well as the type and concentration of other materials in water (surfactants, seed particles, etc.) control the formation rate and the size of the emulsified droplets and thus, have a strong influence on the particle nucleation and the particle morphology. One of the main tasks was to investigate the effect of surfactant molecules and especially micelles on the nucleation mechanism. Experimental results revealed that in the presence of emulsifier micelles the conductivity pattern does not change essentially. This means that the presence of emulsifiers does not change the mechanism of particle formation qualitatively. However, surfactants assist in the nucleation process as they lower the activation free energy of particle formation. Contrary, seed particles influence particle nucleation, substantially. In the presence of seed particles above a critical volume fraction the formation of new particles can be suppressed. However, micelles and seed particles as absorbers exhibit a common behavior under conditions where monomer equilibration is not allowed. Results prove that the nucleation mechanism comprises the initiation of water soluble oligomers in the aqueous phase followed by their aggregation. The process is heterogeneous in nature due to the presence of monomer droplets.},
  language  = {en}
}
@phdthesis{Issaree2008,
  author    = {Issaree, Arisara},
  title     = {Synthesis of Hetero-chitooligosaccharides},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-17069},
  school      = {Universit{\"a}t Potsdam},
  year      = {2008},
  abstract  = {Chitooligosaccharides are composed of linear β-(1→4)-linked 2-acetamido-2-deoxy-β-D-glucopyranose (GlcNAc) and/or 2-amino-2-deoxy-β-D-glucopyranose (GlcN). They are of interest due to their remarkable biological properties including antibacterial, antitumor, antifungal and elicitor activities. They can be obtained from the aminoglucan chitosan by chemical or enzymatic degradation which obviously affords rather heterogenous mixtures. On the other hand, chemical synthesis provides pure compounds with defined sequences of GlcNAc and GlcN monomers. The synthesis of homo- and hetero-chitobioses and hetero-chitotetraoses is described in this thesis. Dimethylmaleoyl and phthaloyl groups were used for protection of the amines. The donor was activated as the trichloroacetimidate in order to form the β-linkages. Glycosylation in the presence of trimethylsilyl trifluoromethanesulfonate, followed by N- and O-deprotection furnished chitobioses and chitotetraoses in good yields.},
  language  = {en}
}
@phdthesis{Weber2007,
  author    = {Weber, Jens},
  title     = {Meso- und mikropor{\"o}se Hochleistungspolymere : Synthese, Analytik und Anwendungen},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-15994},
  school      = {Universit{\"a}t Potsdam},
  year      = {2007},
  abstract  = {Die Arbeit beschreibt die Synthese, Charakterisierung und Anwendung von meso- und mikropor{\"o}sen Hochleistungspolymeren. Im ersten Teil wird die Synthese von mesopor{\"o}sen Polybenzimidazol (PBI) auf der Basis einer Templatierungsmethode vorgestellt. Auf der Grundlage kommerzieller Monomere und Silikatnanopartikel sowie eines neuen Vernetzers wurde ein Polymer-Silikat-Hybridmaterial aufgebaut. Das Herausl{\"o}sen des Silikats mit Ammoniumhydrogendifluorid f{\"u}hrt zu mesopor{\"o}sen Polybenzimidazolen mit spherischen Poren von 9 bis 11 nm Durchmesser. Die Abh{\"a}ngigkeit der beobachteten Porosit{\"a}t vom Massenverh{\"a}ltnis Silikat zu Polymer wurde ebenso untersucht wie die Abh{\"a}ngigkeit der Porosit{\"a}t vom Vernetzergehalt. Die Porosit{\"a}t vollvernetzter Proben zeigt eine lineare Abh{\"a}ngigkeit vom Verh{\"a}ltnis Silikat zu Polymer bis zu einem Grenzwert von 1. Wird der Grenzwert {\"u}berschritten, ist teilweiser Porenkollaps zu beobachten. Die Abh{\"a}ngigkeit der Porosit{\"a}t vom Vernetzergehalt bei festem Silikatgehalt ist nichtlinear. Oberhalb einer kritischen Vernetzerkonzentration wird eine komplette Replikation der Nanopartikel gefunden. Ist die Vernetzerkonzentration dagegen kleiner als der kritische Wert, so ist der v{\"o}llige Kollaps einiger Poren bei Stabilit{\"a}t der verbleibenden Poren zu beobachten. Ein komplett unpor{\"o}ses PBI resultiert bei Abwesenheit des Vernetzers. Die mesopor{\"o}sen PBI-Netzwerke konnten kontrolliert mit Phosphors{\"a}ure beladen werden. Die erhaltenen Addukte wurden auf ihre Protonenleitf{\"a}higkeit untersucht. Es kann gezeigt werden, dass die Nutzung der vordefinierten Morphologie im Vergleich zu einem unstrukturierten PBI in h{\"o}heren Leitf{\"a}higkeiten resultiert. Durch die vernetzte Struktur war des Weiteren gen{\"u}gend mechanische Stabilit{\"a}t gegeben, um die Addukte reversibel und bei sehr guten Leitf{\"a}higkeiten bis zu Temperaturen von 190°C bei 0\% relativer Feuchtigkeit zu untersuchen. Dies ist f{\"u}r unstrukturierte Phosphors{\"a}ure/PBI - Addukte aus linearem PBI nicht m{\"o}glich. Im zweiten Teil der Arbeit wird die Synthese intrinsisch mikropor{\"o}ser Polyamide und Polyimide vorgestellt. Das Konzept intrinsisch mikropor{\"o}ser Polymere konnte damit auf weitere Polymerklassen ausgeweitet werden. Als zentrales, strukturinduzierendes Motiv wurde 9,9'-Spirobifluoren gew{\"a}hlt. Dieses Molek{\"u}l ist leicht und vielf{\"a}ltig zu di- bzw. tetrafunktionellen Monomeren modifizierbar. Dabei wurden bestehende Synthesevorschriften modifiziert bzw. neue Vorschriften entwickelt. Ein erster Schwerpunkt innerhalb des Kapitels lag in der Synthese und Charakterisierung von l{\"o}slichen, intrinsisch mikropor{\"o}sen, aromatischen Polyamid und Polyimid. Es konnte gezeigt werden, dass das Beobachten von Mikroporosit{\"a}t stark von der molekularen Architektur und der Verarbeitung der Polymere abh{\"a}ngig ist. Die Charakterisierung der Porosit{\"a}t erfolgte unter Nutzung von Stickstoffsorption, Kleinwinkelr{\"o}ntgenstreuung und Molecular Modeling. Es konnte gezeigt werden, dass die Proben stark vom Umgebungsdruck abh{\"a}ngigen Deformationen unterliegen. Die starke Quellung der Proben w{\"a}hrend des Sorptionsvorgangs konnte durch Anwendung des "dual sorption" Modells, also dem Auftreten von Porenf{\"u}llung und dadurch induzierter Henry-Sorption, erkl{\"a}rt werden. Der zweite Schwerpunkt des Kapitels beschreibt die Synthese und Charakterisierung mikropor{\"o}ser Polyamid- und Polyimidnetzwerke. W{\"a}hrend Polyimidnetzwerke auf Spirobifluorenbasis ausgepr{\"a}gte Mikroporosit{\"a}t und spezifische Oberfl{\"a}chen von ca. 1100 m²/g aufwiesen, war die Situation f{\"u}r entsprechende Polyamidnetzwerke abweichend. Mittels Stickstoffsorption konnte keine Mikroporosit{\"a}t nachgewiesen werden, jedoch konnte mittels SAXS eine innere Grenzfl{\"a}che von ca. 300 m²/g nachgewiesen werden. Durch die in dieser Arbeit gezeigten Experimente kann die Grenze zwischen Polymeren mit hohem freien Volumen und mikropor{\"o}sen Polymeren somit etwas genauer gezogen werden. ausgepr{\"a}gte Mikroporosit{\"a}t kann nur in extrem steifen Strukturen nachgewiesen werden. Die Kombination der Konzepte "Mesoporosit{\"a}t durch Templatierung" und "Mikroporosit{\"a}t durch strukturierte Monomere" hatte ein hierarchisch strukturiertes Polybenzimidazol zum Ergebnis. Die Pr{\"a}senz einer Strukturierung im molekularen Maßstab konnte SAXS bewiesen werden. Das so strukturierte Polybenzimidazol zeichnete sich durch eine h{\"o}here Protonenleitf{\"a}higkeit im Vergleich zu einem rein mesopor{\"o}sen PBI aus. Der letzte Teil der Arbeit besch{\"a}ftigte sich mit der Entwicklung einer neuen Synthesemethode zur Herstellung von Polybenzimidazol. Es konnte gezeigt werden, dass lineares PBI in einer eutektischen Salzschmelze aus Lithium- und Kaliumchlorid synthetisiert werden kann. Die Umsetzung der spirobifluorenbasierten Monomere zu l{\"o}slichem oder vernetztem PBI ist in der Salzschmelze m{\"o}glich.},
  language  = {de}
}
@phdthesis{Sapei2007,
  author    = {Sapei, Lanny},
  title     = {Characterisation of silica in Equisetum hyemale and its transformation into biomorphous ceramics},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-15883},
  school      = {Universit{\"a}t Potsdam},
  year      = {2007},
  abstract  = {Equisetum spp. (horsetail / "Schachtelhalm") is the only surviving genus of the primitive Sphenopsids vascular plants which reached their zenith during the Carboniferous era. It is an herbaceous plant and is distinguished by jointed stems with fused whorl of nodal leaves. The plant has been used for scouring kitchen utensils and polishing wood during the past time due to its high silica encrustations in the epidermis. Equisetum hyemale (scouring rush) can accumulate silica up to 16\% dry weight in its tissue, which makes this plant an interesting candidate as a renewable resource of silica for the synthesis of biomorphous ceramics. The thesis comprises a comprehensive experimental study of silica accumulations in E.hyemale using different characterisation techniques at all hierarchical levels. The obtained results shed light on the local distribution, chemical form, crystallinity, and nanostructure of biogenic silica in E.hyemale which were quite unclear until now. Furthermore, isolation of biogenic silica from E.hyemale to obtain high grade mesoporous silica with high purity is investigated. Finally, syntheses of silicon carbide (b-SiC) by a direct thermoconversion process of E.hyemale is attempted, which is a promising material for high performance ceramics. It is found that silica is deposited continuously on the entire epidermal layer with the highest concentration on the knobs. The highest silicon content is at the knob tips (≈ 33\%), followed by epidermal flank (≈ 17\%), and inner lower knob (≈ 6\%), whereas there is almost no silicon found in the interior parts. Raman spectroscopy reveals the presence of at least two silica modifications in E.hyemale. The first type is pure hydrated amorphous silica restricted to the knob tips. The second type is accumulated on the entire continuous outer layer adjacent to the epidermis cell walls. It is lacking silanol groups and is intimately associated with polysaccharides (cellulose, hemicellulose, pectin) and inorganic compounds. Silica deposited in E.hyemale is found to be mostly amorphous with almost negligible amounts of crystalline silica in the form of a-quartz (< 7\%). The silica primary particles have a plate-like shape with a thickness of about 2 nm. Pure mesoporous amorphous silica with an open surface area up to 400 m2/g can be obtained from E.hyemale after leaching the plant with HCl to remove the inorganic impurities followed by a calcination treatment. The optimum calcination temperature appears to be around 500°C. Calcination of untreated E.hyemale causes a collapse of the biogenic silica structure which is mainly attributed to the detrimental action of alkali ions present in the native plant. Finally, pure b-SiC with a surface area of about 12 m2/g is obtained upon direct pyrolysis of HCl-treated E.hyemale samples in argon atmosphere. The original structure of native E.hyemale is substantially retained in the biomorphous b-SiC. The results of this thesis lead to a better understanding of the silicification process and allow to draw conclusions about the role of silica in E.hyemale. In particular, a templating role of the plant biopolymers for the synthesis of the nanostructured silica within the plant body can be deduced. Moreover, the high grade ultrafine amorphous silica isolated from E.hyemale promises applications as adsorbent and catalyst support and as silica source for the fabrication of silica-based composites. The synthesis of biomorphous b-SiC from sustainable and low-cost E.hyemale is still in its initial stage. The present thesis demonstrates the principal possibility of carbothermal synthesis of SiC from E.hyemale with the prospect of potential applications, for instance as refractory materials, catalyst supports, or high performance advanced ceramics.},
  language  = {en}
}
@phdthesis{Frankovitch2007,
  author    = {Frankovitch, Christine Marie},
  title     = {Optical methods for monitoring biological parameters of phototropic microorganisms during cultivation},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-15403},
  school      = {Universit{\"a}t Potsdam},
  year      = {2007},
  abstract  = {Phototropic microalgae have a large potential for producing valuable substances for the feed, food, cosmetics, pigment, bioremediation, and pharmacy industries as well as for biotechnological processes. Today it is estimated that the microalgal aquaculture worldwide production is 5000 tons of dry matter per year (not taking into account processed products) making it an approximately \$1.25 billion U.S. per year industry. In this work, several spectroscopic techniques were utilized for the investigation of microalgae cells. Specifically, photondensity wave spectroscopy was applied as a technique for the on-line observation of the culture. For effective evaluation of the photosynthetic growth processes, fast and non-invasive sensor systems that analyze the relevant biological and technical process parameters are preferred. Traditionally, the biomass in a photobioreactor is quantified with the help of turbidimetry measurements, which require extensive calibration. Another problem frequently encountered when using spectral analysis for investigating solutions is that samples of interest are often undiluted and highly scattering and do not adhere to Beer-Lambert's law. Due to the fluorescence properties of chlorophyll, fluorescence spectroscopy techniques including fluorescence lifetime imaging and single photon counting could be applied to provide images of the cells as well as determine the effects of excitation intensity on the fluorescence lifetime, which is an indicator of the condition of the cell. A photon density wave is a sinusoidally intensity-modulated optical wave stemming from a point-source of light, which propagates through diffuse medium and exhibits amplitude and phase variations. Light propagation though strongly scattering media can be described by the P1 approximation to the Boltzmann transport equation. Photon density wave spectroscopy enables the ability to differentiate between scattered and absorbed light, which is desired so that an independent determination of the reduced scattering and absorption coefficients can be made. The absorption coefficient is related to the pigment content in the cells, and the reduced scattering coefficient can be used to characterize physical and morphological properties of the medium and was here applied for the determination of the average cell size.},
  language  = {en}
}
@phdthesis{Adelhelm2007,
  author    = {Adelhelm, Philipp},
  title     = {Novel carbon materials with hierarchical porosity : templating strategies and advanced characterization},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-15053},
  school      = {Universit{\"a}t Potsdam},
  year      = {2007},
  abstract  = {The aim of this work was the generation of carbon materials with high surface area, exhibiting a hierarchical pore system in the macro- and mesorange. Such a pore system facilitates the transport through the material and enhances the interaction with the carbon matrix (macropores are pores with diameters > 50 nm, mesopores between 2 - 50 nm). Thereto, new strategies for the synthesis of novel carbon materials with designed porosity were developed that are in particular useful for the storage of energy. Besides the porosity, it is the graphene structure itself that determines the properties of a carbon material. Non-graphitic carbon materials usually exhibit a quite large degree of disorder with many defects in the graphene structure, and thus exhibit inherent microporosity (d < 2nm). These pores are traps and oppose reversible interaction with the carbon matrix. Furthermore they reduce the stability and conductivity of the carbon material, which was undesired for the proposed applications. As one part of this work, the graphene structures of different non-graphitic carbon materials were studied in detail using a novel wide-angle x-ray scattering model that allowed precise information about the nature of the carbon building units (graphene stacks). Different carbon precursors were evaluated regarding their potential use for the synthesis shown in this work, whereas mesophase pitch proved to be advantageous when a less disordered carbon microstructure is desired. By using mesophase pitch as carbon precursor, two templating strategies were developed using the nanocasting approach. The synthesized (monolithic) materials combined for the first time the advantages of a hierarchical interconnected pore system in the macro- and mesorange with the advantages of mesophase pitch as carbon precursor. In the first case, hierarchical macro- / mesoporous carbon monoliths were synthesized by replication of hard (silica) templates. Thus, a suitable synthesis procedure was developed that allowed the infiltration of the template with the hardly soluble carbon precursor. In the second case, hierarchical macro- / mesoporous carbon materials were synthesized by a novel soft-templating technique, taking advantage of the phase separation (spinodal decomposition) between mesophase pitch and polystyrene. The synthesis also allowed the generation of monolithic samples and incorporation of functional nanoparticles into the material. The synthesized materials showed excellent properties as an anode material in lithium batteries and support material for supercapacitors.},
  language  = {en}
}
@phdthesis{Niehus2007,
  author    = {Niehus, Christina},
  title     = {Untersuchungen zur Selektivit{\"a}t unterschiedlich substituierter Iminodiessigs{\"a}ure-Ionenaustauscher gegen{\"u}ber zweiwertigen Metallionen},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-13190},
  school      = {Universit{\"a}t Potsdam},
  year      = {2007},
  abstract  = {Zur selektiven Entfernung von Schwermetallen aus industriellen Abw{\"a}ssern und Prozessl{\"o}sungen der metallverarbeitenden Industrie werden synthetische metallkomplexierende funktionelle Polymere - mit Iminodiessigs{\"a}ure (IDE) als aktive Spezies - seit Jahren erfolgreich zur Eliminierung st{\"o}render Kationen eingesetzt. St{\"a}ndig steigende Anforderungen an die Qualit{\"a}t der aufzubereitenden W{\"a}sser verlangen nach leistungsf{\"a}higen Selektivaustauschern, die den Erhalt der Eigenschaften von Prozessl{\"o}sungen (z. B. pH-Wert, Salzgehalt) erm{\"o}glichen. Ziel der Untersuchungen war es, die strukturellen Matrixeinfl{\"u}sse auf Beladung, Kapazit{\"a}t, Selektivit{\"a}t und Kinetik durch Variation der Matrix und der experimentellen Bedingungen n{\"a}her zu untersuchen. Auf Basis einer monodispersen Erstsubstitution eines Styren-Divinylbenzen-Copolymerisates wurde durch gezielten Einbau funktioneller Gruppen - Synthese mit differenziertem Substitutionsgrad (TK/N 1-2) - versucht, systematisch den Einfluss des Substitutionsgrades der Matrix auf die Eigenschaften der Ionenaustauscher zu analysieren. Methodisch geordnet wurden zun{\"a}chst die Versuche nach dem Batch- und anschließend nach dem S{\"a}ulenverfahren durchgef{\"u}hrt und parallel dazu die Matrix charakterisiert. Das Verhalten der funktionellen Ankergruppen in Abh{\"a}ngigkeit vom pH-Wert der L{\"o}sung (pH-Bereich 2 - 5) wurde untersucht, der optimale Anreicherungs-pH-Wert, die maximale Beladung (Kapazit{\"a}t) und Selektivit{\"a}t der unterschiedlich substituierten Proben f{\"u}r die Schwermetall-Ionen Cu, Zn, Ni, Cd, Pb und Co ermittelt. Den statischen Versuchen folgten dynamische Untersuchungen im S{\"a}ulenverfahren. Ziel war die Ermittlung des Durchbruchverhaltens und der Durchbruchkapazit{\"a}t bei optimalem pH-Wert in Abh{\"a}ngigkeit vom Substitutionsgrad gegen{\"u}ber den Einzelmetallionen (Cu, Ni, Zn) und ausgew{\"a}hlten Paaren (Cu/Ni, Cu/Zn, Ni/Zn). Alle Ionenaustauscher wurden ausschließlich in der Ca-Form eingesetzt.},
  language  = {de}
}
@phdthesis{Hartmann2007,
  author    = {Hartmann, Laura},
  title     = {Synthese monodisperser, multifunktionaler Poly(amidoamine) und ihre Anwendung als nicht-virale Vektoren f{\"u}r die Gentherapie},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-13129},
  school      = {Universit{\"a}t Potsdam},
  year      = {2007},
  abstract  = {Die vorliegende Arbeit besch{\"a}ftigt sich mit der Synthese monodisperser, multifunktionaler Poly(amidoamine) (PAAs). Die Klasse der PAAs ist besonders interessant f{\"u}r eine Anwendung im Bereich der Biomedizin, da sie meist nicht toxisch ist, eine sehr geringe Immunogenizit{\"a}t zeigt und eine erh{\"o}hte Zellmembranpermeabilit{\"a}t besitzt. Allerdings ist der Einsatz linearer PAAs bisher limitiert, da ihre Synthese nur den Zugang von hoch-polydispersen Systemen mit einer streng alternierenden oder statistischen Verteilung von Funktionalit{\"a}ten erlaubt. Es ist daher von großem Interesse diese Polymerklasse durch die M{\"o}glichkeit eines sequenzdefinierten Aufbaus und der Integration von neuen Funktionalit{\"a}ten zu verbessern. Um dies zu erm{\"o}glichen, wurden, vergleichbar mit der etablierten Festphasensynthese von Peptiden, schrittweise funktionale Dis{\"a}ure- und Diamin-Bausteine an ein polymeres Tr{\"a}ger-Harz addiert. Der sequenzielle Aufbau erm{\"o}glicht die Synthese monodisperser PAAs und die Kontrolle {\"u}ber die Monomersequenz. Die Wahl der Monomer-Bausteine und ihrer Funktionalit{\"a}ten kann dabei f{\"u}r jede Addition neu getroffen werden und entscheidet so {\"u}ber die Sequenz der Funktionalit{\"a}ten im Polymerr{\"u}ckgrat. Die verwendete Chemie entspricht dabei der Standardpeptidchemie, so dass mit Hilfe eines Peptidsynthese-Automaten die Synthese vollst{\"a}ndig automatisiert werden konnte. Die Verwendung spezieller Tr{\"a}gerharze, die bereits mit einem synthetischen Polymerblock wie PEO oder auch mit einem Peptid vorbeladen waren, erlaubt die direkte Synthese von PEO- und Peptid-PAA Blockcopolymeren. Da die hier dargestellten PAAs sp{\"a}ter auf ihre Eignung als multivalente Polykationen in der Gentherapie getestet werden sollten, wurden zun{\"a}chst Bausteine gew{\"a}hlt, die den Einbau verschiedener Aminfunktionalit{\"a}ten erm{\"o}glichen. Die Bausteine m{\"u}ssen dabei so gew{\"a}hlt sein, dass sie kompatibel sind mit der Chemie des Peptidsynthesizers und eine quantitative Addition ohne Neben- oder Abbruchreaktionen garantieren. Dar{\"u}ber hinaus ist der Einbau von Peptidsequenzen und Disulfid-Einheiten in die PAA-Kette m{\"o}glich, die z. B. f{\"u}r einen selektiven Abbau des Polymers im Organismus genutzt werden k{\"o}nnen. Zusammenfassend l{\"a}sst sich feststellen, dass die in dieser Arbeit vorgestellten PAA-Systeme großes Potenzial als nicht-virale Vektoren f{\"u}r die Gentransfektion bieten. Sie sind nicht toxisch und zeigen Zellaufnahme-Effizienzen von bis zu 77\%. Die Gentransfereffizienz ist im Vergleich zu etablierten Polymer-Vektoren zwar noch sehr gering, aber die bisherigen Versuche zeigen bereits eine m{\"o}gliche Ursache, n{\"a}mlich die schlechte Freisetzung des Genmaterials innerhalb der Zelle. Eine L{\"o}sung dieses Problems bietet jedoch die weitere Modifizierung der PAA-Systeme durch den Einbau von Sollbruchstellen. Diese Sollbruchstellen erm{\"o}glichen einen programmierten Abbau des Polymers innerhalb der Zelle und damit sollte die Freisetzung des Genmaterials vom Tr{\"a}ger deutlich erleichtert werden. M{\"o}gliche Bruchstellen sind z. B. enzymatisch gezielt spaltbare Peptideinheiten oder Disulfid-Einheiten, wie sie bereits als Bausteine f{\"u}r die PAA-Synthese vorgestellt wurden (vergl. Kapitel 4.4). Da nur innerhalb der Zelle ein reduzierendes elektrochemisches Potential besteht, werden z. B. Disulfid-Einheiten auch nur dort gespalten und bieten außerhalb der Zelle ausreichende Stabilit{\"a}t zum Erhalt der Polyplexstruktur. Neben einer Anwendung in der Gentherapie bieten die hier vorgestellten PAA-Systeme den Vorteil einer systematischen Untersuchung von Struktur-Eigenschafts-Beziehungen der Polyplexe. Es wurden verschiedene Zusammenh{\"a}nge zwischen der chemischen Struktur der PAA-Segmente und der Art und St{\"a}rke der DNS-Komprimierung aufgezeigt. Die Komprimierungsst{\"a}rke wiederum zeigte deutlichen Einfluss auf die Internalisierungsrate und damit auch Transfektionseffizienz. Dar{\"u}ber hinaus zeigte sich ein drastischer Einfluss des PEO-Blocks auf die Stabilisierung der Polyplexe sowie deren intrazellul{\"a}re Freisetzung bei Zusatz von Chloroquin. Dennoch bleiben aufgrund der Komplexit{\"a}t der Zusammenh{\"a}nge noch viele Mechanismen der Transfektion unverstanden, und es muss Aufgabe folgender Arbeiten sein, das Potential der hier eingef{\"u}hrten monodispersen PAA-Systeme weiter auszuloten. So w{\"a}re z. B. eine Korrelation der Kettenl{\"a}nge mit den Parametern der Polyplexbildung, der Zellaufnahme und Transfektionseffizienz von großem Interesse. Dar{\"u}ber hinaus bietet der Einbau von Sollbruchstellen wie kurzen Peptidsequenzen oder den hier bereits eingef{\"u}hrten Disulfid-Einheiten neue M{\"o}glichkeiten der gezielten Freisetzung und des programmierten Abbaus, die n{\"a}her untersucht werden m{\"u}ssen. Neben der Anwendung im Bereich der Gentransfektion sind außerdem andere Gebiete f{\"u}r den Einsatz von monodispersen multifunktionalen PAAs denkbar, da diese kontrollierbare und einstellbare Wechselwirkungen erm{\"o}glichen.},
  language  = {de}
}
@phdthesis{Wattebled2006,
  author    = {Wattebled, Laurent},
  title     = {Oligomeric surfactants as novel type of amphiphiles : structure - property relationships and behaviour with additives},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-12855},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {The properties of a series of well-defined new surfactant oligomers (dimers to tetramers)were examined. From a molecular point of view, these oligomeric surfactants consist of simple monomeric cationic surfactant fragments coupled via the hydrophilic ammonium chloride head groups by spacer groups (different in nature and length). Properties of these cationic surfactant oligomers in aqueous solution such as solubility, micellization and surface activity, micellar size and aggregation number were discussed with respect to the two new molecular variables introduced, i.e. degree of oligomerization and spacer group, in order to establish structure - property relationships. Thus, increasing the degree of oligomerization results in a pronounced decrease of the critical micellization concentration (CMC). Both reduced spacer length and increased spacer hydrophobicity lead to a decrease of the CMC, but to a lesser extent. For these particular compounds, the formed micelles are relatively small and their aggregation number decreases with increasing the degree of oligomerization, increasing spacer length and sterical hindrance. In addition, pseudo-phase diagrams were established for the dimeric surfactants in more complex systems, namely inverse microemulsions, demonstrating again the important influence of the spacer group on the surfactant behaviour. Furthermore, the influence of additives on the property profile of the dimeric compounds was examined, in order to see if the solution properties can be improved while using less material. Strong synergistic effects were observed by adding special organic salts (e.g. sodium salicylate, sodium vinyl benzoate, etc.) to the surfactant dimers in stoichiometric amounts. For such mixtures, the critical aggregation concentration is strongly shifted to lower concentration, the effect being more pronounced for dimers than for analogous monomers. A sharp decrease of the surface tension can also be attained. Many of the organic anions produce viscoelastic solutions when added to the relatively short-chain dimers in aqueous solution, as evidenced by rheological measurements. This behaviour reflects the formation of entangled wormlike micelles due to strong interactions of the anions with the cationic surfactants, decreasing the curvature of the micellar aggregates. It is found that the associative behaviour is enhanced by dimerization. For a given counterion, the spacer group may also induce a stronger viscosifying effect depending on its length and hydrophobicity. Oppositely charged surfactants were combined with the cationic dimers, too. First, some mixtures with the conventional anionic surfactant SDS revealed vesicular aggregates in solution. Also, in view of these catanionic mixtures, a novel anionic dimeric surfactant based on EDTA was synthesized and studied. The synthesis route is relatively simple and the compound exhibits particularly appealing properties such as low CMC and σCMC values, good solubilization capacity of hydrophobic probes and high tolerance to hard water. Noteworthy, mixtures with particular cationic dimers gave rise to viscous solutions, reflecting the micelle growth.},
  language  = {en}
}
@phdthesis{Hildebrandt2006,
  author    = {Hildebrandt, Niko},
  title     = {Lanthanides and quantum dots : time-resolved laser spectroscopy of biochemical F{\"o}rster Resonance Energy Transfer (FRET) systems},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-12686},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {F{\"o}rster Resonance Energy Transfer (FRET) plays an important role for biochemical applications such as DNA sequencing, intracellular protein-protein interactions, molecular binding studies, in vitro diagnostics and many others. For qualitative and quantitative analysis, FRET systems are usually assembled through molecular recognition of biomolecules conjugated with donor and acceptor luminophores. Lanthanide (Ln) complexes, as well as semiconductor quantum dot nanocrystals (QD), possess unique photophysical properties that make them especially suitable for applied FRET. In this work the possibility of using QD as very efficient FRET acceptors in combination with Ln complexes as donors in biochemical systems is demonstrated. The necessary theoretical and practical background of FRET, Ln complexes, QD and the applied biochemical models is outlined. In addition, scientific as well as commercial applications are presented. FRET can be used to measure structural changes or dynamics at distances ranging from approximately 1 to 10 nm. The very strong and well characterized binding process between streptavidin (Strep) and biotin (Biot) is used as a biomolecular model system. A FRET system is established by Strep conjugation with the Ln complexes and QD biotinylation. Three Ln complexes (one with Tb3+ and two with Eu3+ as central ion) are used as FRET donors. Besides the QD two further acceptors, the luminescent crosslinked protein allophycocyanin (APC) and a commercial fluorescence dye (DY633), are investigated for direct comparison. FRET is demonstrated for all donor-acceptor pairs by acceptor emission sensitization and a more than 1000-fold increase of the luminescence decay time in the case of QD reaching the hundred microsecond regime. Detailed photophysical characterization of donors and acceptors permits analysis of the bioconjugates and calculation of the FRET parameters. Extremely large F{\"o}rster radii of more than 100 {\AA} are achieved for QD as acceptors, considerably larger than for APC and DY633 (ca. 80 and 60 {\AA}). Special attention is paid to interactions with different additives in aqueous solutions, namely borate buffer, bovine serum albumin (BSA), sodium azide and potassium fluoride (KF). A more than 10-fold limit of detection (LOD) decrease compared to the extensively characterized and frequently used donor-acceptor pair of Europium tris(bipyridine) (Eu-TBP) and APC is demonstrated for the FRET system, consisting of the Tb complex and QD. A sub-picomolar LOD for QD is achieved with this system in azide free borate buffer (pH 8.3) containing 2 \% BSA and 0.5 M KF. In order to transfer the Strep-Biot model system to a real-life in vitro diagnostic application, two kinds of imunnoassays are investigated using human chorionic gonadotropin (HCG) as analyte. HCG itself, as well as two monoclonal anti-HCG mouse-IgG (immunoglobulin G) antibodies are labeled with the Tb complex and QD, respectively. Although no sufficient evidence for FRET can be found for a sandwich assay, FRET becomes obvious in a direct HCG-IgG assay showing the feasibility of using the Ln-QD donor-acceptor pair as highly sensitive analytical tool for in vitro diagnostics.},
  language  = {en}
}
@phdthesis{Mauser2006,
  author    = {Mauser, Tatjana},
  title     = {Multilayer capsules with stimuli-sensitive properties : pH-response and carbohydrate-sensing},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-12529},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {Polyelectrolyte microcapsules containing stimuli-responsive polymers have potential applications in the fields of sensors or actuators, stimulable microcontainers and controlled drug delivery. Such capsules were prepared, with the focus on pH-sensitivity and carbohydrate-sensing. First, pH-responsive polyelectrolyte capsules were produced by means of electrostatic layer-by-layer assembly of oppositely charged weak polyelectrolytes onto colloidal templates that were subsequently removed. The capsules were composed of poly(allylamine hydrochloride) (PAH) and poly(methacrylic acid) (PMA) or poly(4-vinylpyridine) (P4VP) and PMA and varied considerably in their hydrophobicity and the influence of secondary interactions. These polymers were assembled onto CaCO3 and SiO2 particles with diameters of ~ 5 µm, and a new method for the removal of the silica template under mild conditions was proposed. The pH-dependent stability of PAH/PMA and P4VP/PMA capsules was studied by confocal laser scanning microscopy (CLSM). They were stable over a wide pH-range and exhibited a pronounced swelling at the edges of stability, which was attributed to uncompensated positive or negative charges within the multilayers. The swollen state could be stabilized when the electrostatic repulsion was counteracted by hydrogen-bonding, hydrophobic interactions or polymeric entanglement. This stabilization made it possible to reversibly swell and shrink the capsules by tuning the pH of the solution. The pH-dependent ionization degree of PMA was used to modulate the binding of calcium ions. In addition to the pH-sensitivity, the stability and the swelling degree of these capsules at a given pH could be modified, when the ionic strength of the medium was altered. The reversible swelling was accompanied by reversible permeability changes for low and high molecular weight substances. The permeability for glucose was evaluated by studying the time-dependence of the buckling of the capsule walls in glucose solutions and the reversible permeability modulation was used for the encapsulation of polymeric material. A theoretical model was proposed to explain the pH-dependent size variations that took into account an osmotic expanding force and an elastic restoring force to evaluate the pH-dependent size changes of weak polyelectrolyte capsules. Second, sugar-sensitive multilayers were assembled using the reversible covalent ester formation between the polysaccharide mannan and phenylboronic acid moieties that were grafted onto poly(acrylic acid) (PAA). The resulting multilayer films were sensitive to several carbohydrates, showing the highest sensitivity to fructose. The response to carbohydrates resulted from the competitive binding of small molecular weight sugars and mannan to the boronic acid groups within the film, and was observed as a fast dissolution of the multilayers, when they were brought into contact with the sugar-containing solution above a critical concentration. It was also possible to prepare carbohydrate-sensitive multilayer capsules, and their sugar-dependent stability was investigated by following the release of encapsulated rhodamine-labeled bovine serum albumin (TRITC-BSA).},
  language  = {en}
}
@phdthesis{Note2006,
  author    = {Note, Carine},
  title     = {Influence of hydrophobically modified polyelectrolytes on nanoparticle synthesis in self-organized systems and in water},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-11670},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {The formation of colloids by the controlled reduction, nucleation, and growth of inorganic precursor salts in different media has been investigated for more than a century. Recently, the preparation of ultrafine particles has received much attention since they can offer highly promising and novel options for a wide range of technical applications (nanotechnology, electrooptical devices, pharmaceutics, etc). The interest derives from the well-known fact that properties of advanced materials are critically dependent on the microstructure of the sample. Control of size, size distribution and morphology of the individual grains or crystallites is of the utmost importance in order to obtain the material characteristics desired. Several methods can be employed for the synthesis of nanoparticles. On the one hand, the reduction can occur in diluted aqueous or alcoholic solutions. On the other hand, the reduction process can be realized in a template phase, e.g. in well-defined microemulsion droplets. However, the stability of the nanoparticles formed mainly depends on their surface charge and it can be influenced with some added protective components. Quite different types of polymers, including polyelectrolytes and amphiphilic block copolymers, can for instance be used as protecting agents. The reduction and stabilization of metal colloids in aqueous solution by adding self-synthesized hydrophobically modified polyelectrolytes were studied in much more details. The polymers used are hydrophobically modified derivatives of poly(sodium acrylate) and of maleamic acid copolymers as well as the commercially available branched poly(ethyleneimine). The first notable result is that the polyelectrolytes used can act alone as both reducing and stabilizing agent for the preparation of gold nanoparticles. The investigation was then focused on the influence of the hydrophobic substitution of the polymer backbone on the reduction and stabilization processes. First of all, the polymers were added at room temperature and the reduction process was investigated over a longer time period (up to 8 days). In comparison, the reduction process was realized faster at higher temperature, i.e. 100°C. In both cases metal nanoparticles of colloidal dimensions can be produced. However, the size and shape of the individual nanoparticles mainly depends on the polymer added and the temperature procedure used. In a second part, the influence of the prior mentioned polyelectrolytes was investigated on the phase behaviour as well as on the properties of the inverse micellar region (L2 phase) of quaternary systems consisting of a surfactant, toluene-pentanol (1:1) and water. The majority of the present work has been made with the anionic surfactant sodium dodecylsulfate (SDS) and the cationic surfactant cetyltrimethylammonium bromide (CTAB) since they can interact with the oppositely charged polyelectrolytes and the microemulsions formed using these surfactants present a large water-in-oil region. Subsequently, the polymer-modified microemulsions were used as new templates for the synthesis of inorganic particles, ranging from metals to complex crystallites, of very small size. The water droplets can indeed act as nanoreactors for the nucleation and growth of the particles, and the added polymer can influence the droplet size, the droplet-droplet interactions, as well as the stability of the surfactant film by the formation of polymer-surfactant complexes. One further advantage of the polymer-modified microemulsions is the possibility to stabilize the primary formed nanoparticles via a polymer adsorption (steric and/or electrostatic stabilization). Thus, the polyelectrolyte-modified nanoparticles formed can be redispersed without flocculation after solvent evaporation.},
  subject      = {Mikroemulsion},
  language  = {en}
}
@phdthesis{Peikow2006,
  author    = {Peikow, Dirk},
  title     = {Synthese und Glycosidasehemmung von Thio-analogen Kohlenhydraten},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-11192},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {Chitin ist ein Polysaccharid, welches aus N-Acetylglucosamin (GlcNAc) aufgebaut ist. Das Biopolymer kommt in der Natur in Invertebraten, Algen, Pilzen und Einzellern vor. Chitinasen hydrolysieren Chitin. Diese Enzyme sind essentiell f{\"u}r die Regulierung und Entwicklung von Arthropoden und Mikroorganismen. Sie fungieren in Pflanzen als Phytoalexine. Das verst{\"a}rkt das Interesse am Design neuer nat{\"u}rlicher und synthetischer Chitinase-inhibitoren, die als potentielle Insektizide, Fungizide, Antimalaria bzw. Antiasthmatika eingesetzt werden k{\"o}nnen. Ziel dieser Arbeit war die Synthese von neuen Thioglycosidanaloga von N-Acetyl-chitooligosacchariden und deren Untersuchung als Enzyminhibitoren. Die gesch{\"u}tzten 4-O-Tf-galactopyranosylthioglycoside wurden aus den korrespondierenden p-Methoxyphenylglycosiden von GlcNAc nach einer neuen Methode in einer Stufe hergestellt. Die Reaktion der galacto-Triflate mit 2-Acetamido-3,4,6-tri-O-acetyl-2-desoxy-1-thio-ß-D-glucopyranose in Gegenwart von Natriumhydrid und 15-Krone-5 in THF lieferte die Pseudo-Trisaccharide. Die Herstellung der Glycosyl-Thiazoline aus den entsprechenden p-Methoxyphenyl-glycosiden mit Lawesson's Reagenz ist nach einem neuen Reaktionsweg beschrieben wie auch die Synthese der Thioacetamide von GlcNAc-Oligomeren. Die Pseudo-Oligosaccharide wurden als Inhibitoren der Chitinasen von Serratia marcescens, Chironomus tentans, Acanthocheilonema viteae und Hevaea brasiliensis sowie der N-Acetyl-glucosaminidase von Chironomus tentans getestet. In einigen F{\"a}llen ergab sich eine Hemmung (IC50) im µM-Bereich.},
  language  = {de}
}
@phdthesis{Meyer2006,
  author    = {Meyer, Matthias},
  title     = {PIPOX-PEP : kontrollierte Synthese und Aggregationsverhalten von Blockcopolymeren mit schaltbarer Hydrophilie},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-10832},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {Es wurden Poly(2-isopropyl-2-oxazolin)-Makroinitiatoren mit terminaler Ammoniumtrifluoracetat-Endgruppe synthetisiert, die anschließend f{\"u}r die Ammonium vermittelte NCA Polymerisation in NMP eingesetzt wurden. Die hierbei synthetisierten Poly(2-isopropyl-2-oxazolin)-block-poly(L-glutamat) (PIPOX-PEP) Blockcopolymere hatten eine Molekulargewichtsverteilung von 1,2 (UZ). Es wurde beobachtet, dass Poly(2-isopropyl-2-oxazolin) bei langen Zeiten oberhalb der LCST irreversibel sph{\"a}rische Strukturen bildet, die eine hierarchische Struktur besitzen und bei denen es sich m{\"o}glicherweise um "large compound micelles" handelt. PIPOX-PEP kann in w{\"a}sseriger L{\"o}sung bei langen Zeiten oberhalb der LCST "cottonball" Strukturen bilden. Die Aggregate wurden mittels Lichtstreuung, NMR und TEM charakterisiert. Im Rahmen der Arbeit wurden Strukturbildungsmodelle entwickelt.},
  subject      = {Polymer},
  language  = {de}
}
@phdthesis{Rettig2006,
  author    = {Rettig, Hartmut Arnim},
  title     = {Methoden zur Synthese von definierten bioorganisch-synthetischen Blockcopolymeren},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-10293},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {Bioorganisch-synthetische Blockcopolymere sind sowohl f{\"u}r die Materialwissenschaft als auch f{\"u}r die Medizin hochinteressant. Diese Arbeit besch{\"a}ftigte sich mit neuen Synthesewegen f{\"u}r die Herstellung dieser Blockcopolymere. Zun{\"a}chst wurde der klassische Ansatz zur Herstellung eines Blockcopolymers {\"u}ber die Kupplung der beiden Segmente aufgegriffen. Hierzu wurde eine Methode zur Synthese von selektiv s{\"a}ureendfunktionalisierten Polyacrylaten mittels einer terminalen Benzylesterschutzgruppe vorgestellt. F{\"u}r die Herstellung von bioorganisch-synthetischen Blockcopolymeren mit einem gr{\"o}ßeren Polymersegment wurde daher ein anderer Syntheseansatz entwickelt. Dieser geht von einem funktionalisierten Oligopeptid aus, an dem durch Polymerisation das synthetische Segment aufgebaut wird. Der Aufbau erfolgte durch kontrolliert radikalische Polymerisation, um ein m{\"o}glichst definiertes Segment zu erhalten. Zun{\"a}chst wurde eine Synthese von Oligopeptid-Makroinitiatoren f{\"u}r die ATRP-Polymerisation durchgef{\"u}hrt. Es konnte gezeigt werden, dass in geeigneten polaren L{\"o}sungsmitteln (DMSO, DMF) eine Polymerisation mit dem ATRP-Oligopeptid-Makroinitiator erfolgreich ist. Allerdings treten w{\"a}hrend der Polymerisation Wechselwirkungen zwischen dem Katalysator und dem Oligopeptid auf. Eine Alternative bietet die RAFT-Polymerisation, da sie ohne einen Katalysator durchgef{\"u}hrt wird. Es gelang ausgehend von dem Oligopeptid-ATRP-Makroinitiator den {\"U}bertr{\"a}ger herzustellen. Die RAFT-Polymerisation mit einem Oligopeptid{\"u}bertr{\"a}ger stellt eine wichtige Methode f{\"u}r die Herstellung von bioorganisch-synthetischen Blockcopolymeren dar. Sie besitzt eine hohe Toleranz gegen{\"u}ber funktionellen Gruppen. Die so hergestellten Blockcopolymere sind frei von Verunreinigungen, wie z.B. {\"U}bergangsmetallen. Dabei l{\"a}ßt sich das Molekulargewicht des synthetischen Blocks bei einer Polydispersit{\"a}t um 1,2 gut kontrollieren.},
  subject      = {ATRP},
  language  = {de}
}
@phdthesis{Ba2006,
  author    = {Ba, Jianhua},
  title     = {Nonaqueous synthesis of metal oxide nanoparticles and their assembly into mesoporous materials},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-10173},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {This thesis mainly consist of two parts, the synthesis of several kinds of technologically interesting crystalline metal oxide nanoparticles via nonaqueous sol-gel process and the formation of mesoporous metal oxides using some of these nanoparticles as building blocks via evaporation induced self-assembly (EISA) technique. In the first part, the experimental procedures and characterization results of successful syntheses of crystalline tin oxide and tin doped indium oxide (ITO) nanoparticles are reported. SnO2 nanoparticles exhibit monodisperse particle size (3.5 nm in average), high crystallinity and particularly high dispersibility in THF, which enable them to become the ideal particulate precursor for the formation of mesoporous SnO2. ITO nanoparticles possess uniform particle morphology, narrow particle size distribution (5-10 nm), high crystallinity as well as high electrical conductivity. The synthesis approaches and characterization of various mesoporous metal oxides, including TiO2, SnO2, mixture of CeO2 and TiO2, mixture of BaTiO3 and SnO2, are reported in the second part of this thesis. Mesoporous TiO2 and SnO2 are presented as highlights of this part. Mesoporous TiO2 was produced in the forms of both films and bulk material. In the case of mesoporous SnO2, the study was focused on the high order of the porous structure. All these mesoporous metal oxides show high crystallinity, high surface area and rather monodisperse pore sizes, which demonstrate the validity of EISA process and the usage of preformed crystalline nanoparticles as nanobuilding blocks (NBBs) to produce mesoporous metal oxides.},
  subject      = {Nanopartikel},
  language  = {en}
}
@phdthesis{Bhattacharryya2006,
  author    = {Bhattacharryya, Saroj Kumar},
  title     = {Development of detector for analytical ultracentrifuge. - [korr. Fassung]},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-8215},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {In this work approaches for new detection system development for an Analytical Ultracentrifuge (AUC) were explored. Unlike its counterpart in chromatography fractionation techniques, the use of a Multidetection system for AUC has not yet been implemented to full extent despite its potential benefit. In this study we tried to couple existing fundamental spectroscopic and scattering techniques that are used in day to day science as tool for extracting analyte information. Trials were performed for adapting Raman, Light scattering and UV/Vis (with possibility to work with the whole range of wavelengths) to AUC. Conclusions were drawn for Raman and Light scattering to be a possible detection system for AUC, while the development for a fast fiber optics based multiwavelength detector was completed. The multiwavelength detector demonstrated the capability of data generation matching the literature and reference measurement data and faster data collection than that of the commercial instrument. It became obvious that with the generation of data in 3-D space in the UV/Vis detection system, the user can select the wavelength for the evaluation of experimental results as the data set contains the whole range of information from UV/Vis wavelength. The detector showed the data generation with much faster speed unlike the commercial instruments. The advantage of fast data generation was exemplified with the evaluation of data for a mixture of three colloids. These data were in conformity with measurement results from normal radial experiments and without significant diffusion broadening. Thus conclusions were drawn that with our designed Multiwavelength detector, meaningful data in 3-D space can be collected with much faster speed of data generation.},
  subject      = {Ultrazentrifuge},
  language  = {en}
}
@phdthesis{Gehrke2006,
  author    = {Gehrke, Nicole},
  title     = {Retrosynthese von Perlmutt},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-7971},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {In dieser Arbeit ist es gelungen, die Bedeutung physikalisch-chemischer Mechanismen in der Biomineralisation gegen{\"u}ber der bisher angenommenen Dominanz spezifischer biomolekularer Erkennungsmechanismen aufzuzeigen. Dazu wurden drei Ans{\"a}tze verfolgt: Zum einen wurden Studien zur Calciumcarbonatkristallisation durchgef{\"u}hrt. Zum anderen wurde das Biomineral Perlmutt intensiv untersucht. Als drittes wurde ein Modellsystem entwickelt, mit dem k{\"u}nstliches Perlmutt synthetisiert und ein Mechanismus f{\"u}r die Perlmuttmineralisation vorgeschlagen werden konnte. Im ersten Schritt wurden in einem simplen Kristallisationsansatz komplexe Calciumcarbonat{\"u}berstrukturen ohne die Verwendung von Additiven synthetisiert. Es wurde gezeigt, daß diese durch orientierte Anlagerung von Nanopartikeln gebildet werden, bei der dipolare Felder eine wichtige Rolle zu spielen scheinen. Dieser Mechansimus war bislang f{\"u}r Calciumcarbonat unbekannt und erm{\"o}glicht die Synthese komplexer Kristallmorphologien, wodurch die Frage aufgeworfen wird, ob er bei der Biomineralbildung von Bedeutung sein kann. Durch Einsatz minimaler Mengen eines einfachen, synthetischen Additivs bei der Kristallisation wurden zu {\"U}berstrukturen angeordnete Aragonitpl{\"a}ttchen synthetisiert, die von einer wenige nm dicken Schicht aus amorphen Calciumcarbonat umgeben sind. Eine solche Schicht wurde auch bei den Aragonitpl{\"a}ttchen Perlmutts entdeckt (s.u.) und bietet m{\"o}glicherweise in verschiedenen Systemen eine Erkl{\"a}rung f{\"u}r die Stabilisierung der sonst metastabilen Aragonitphase. Im zweiten Schritt wurden bei der Untersuchung von nat{\"u}rlichem Perlmutt zwei bislang unbekannte Strukturmerkmale entdeckt: Es gibt Bereiche, die nicht aus den charakteristischen Pl{\"a}ttchen bestehen, sondern wesentlich weniger stark mineralisert sind. Die Mineralphase besteht in diesen Bereichen aus Nanopartikeln. Es wurde weiterhin gezeigt, daß die Aragonitpl{\"a}ttchen von einer wenige nm dicken Schicht aus amorphem Calciumcarbonat umgeben ist. Die g{\"a}ngigen Modelle der Perlmuttbildung sind mit diesen Beobachtungen nicht zu vereinbaren und somit zu hinterfragen. Dagegen deuten diese Ergebnisse ein Wachstum von Perlmutt {\"u}ber ACC-Nanopartikel an. Unter der Annahme der Bedeutung physikalisch-chemischer Mechanismen in der Biomineralisation wurde schließlich als dritter Schritt ein Ansatz zur in vitro-Retrosynthese von Biomineralien ausgehend von ihrer unl{\"o}slichen Matrix entwickelt. Mit diesem Ansatz ist es erstmals gelungen, k{\"u}nstliches Perlmutt auf synthetischem Wege herzustellen, das morphologisch nicht vom Original zu unterscheiden ist. Die existierenden Unterschiede konnten zeigen, daß der Mineralisationsprozeß nicht auf ein spezifisches Mikroumgebungssystem beschr{\"a}nkt, sondern "allgemeiner g{\"u}ltig"' sein muß. Bei der Retrosynthese gibt es zwei Schl{\"u}sselfaktoren: Zum einen die demineralisierte unl{\"o}sliche Perlmuttmatrix als dreidimensionales Ger{\"u}st f{\"u}r das k{\"u}nstliche Perlmutt, zum anderen amorphe Precursorpartikel, die die Mineralphase bilden. Es werden keinerlei Proteine oder andere Biomolek{\"u}le verwendet. Dieser Ansatz bietet die M{\"o}glichkeit, den Mineralisationsprozeß an einem in vitro-Modellsystem zu verfolgen, was f{\"u}r das in vivo-System, wenn {\"u}berhaupt, nur unter starken Einschr{\"a}nkungen m{\"o}glich ist. Es wurde gezeigt, daß das k{\"u}nstliche Perlmutt {\"u}ber die Mesoskalentransformation von ACC-Precursorn innerhalb der Matrix gebildet wird und als m{\"o}glicher Mechanismus bei der Biomineralisation von nat{\"u}rlichem Perlmutt diskutiert. Es konnte in der vorliegenden Arbeit konsequent gezeigt werden, daß die Imitation von Biomineralisationsprozessen in in vitro-Ans{\"a}tzen m{\"o}glich ist, wobei chemisch-physikalische Parameter dominieren. In zuk{\"u}nftigen Studien sollten einerseits die mechanischen Eigenschaften des k{\"u}nstlichen Perlmutts untersucht werden, wof{\"u}r sich in Vorversuchen im Rahmen dieser Arbeit die Nanoindentierung als geeignet herausgestellt hat. Es sollte gepr{\"u}ft werden, ob das hier ermittelte Prinzip zur Mineralisierung in der Materialentwicklung angewendet werden kann. Andererseits sollte die Retrosynthese auf andere Systeme ausgeweitet und in vivo-Studien durchgef{\"u}hrt werden, um die G{\"u}ltigkeit der vorgeschlagenen Mechanismen zu {\"u}berpr{\"u}fen.},
  subject      = {Biomineralisation},
  language  = {de}
}
@phdthesis{Nolte2006,
  author    = {Nolte, Marc},
  title     = {Integration of freestanding polyelectrolyte multilayer membranes in larger scale structures},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-7355},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {Ultrathin, semi-permeable membranes are not only essential in natural systems (membranes of cells or organelles) but they are also important for applications (separation, filtering) in miniaturized devices. Membranes, integrated as diffusion barriers or filters in micron scale devices need to fulfill equivalent requirements as the natural systems, in particular mechanical stability and functionality (e.g. permeability), while being only tens of nm in thickness to allow fast diffusion times. Promising candidates for such membranes are polyelectrolyte multilayers, which were found to be mechanically stable, and variable in functionality. In this thesis two concepts to integrate such membranes in larger scale structures were developed. The first is based on the directed adhesion of polyelectrolyte hollow microcapsules. As a result, arrays of capsules were created. These can be useful for combinatorial chemistry or sensing. This concept was expanded to couple encapsulated living cells to the surface. The second concept is the transfer of flat freestanding multilayer membranes to structured surfaces. We have developed a method that allows us to couple mm2 areas of defect free film with thicknesses down to 50 nm to structured surfaces and to avoid crumpling of the membrane. We could again use this technique to produce arrays of micron size. The freestanding membrane is a diffusion barrier for high molecular weight molecules, while small molecules can pass through the membrane and thus allows us to sense solution properties. We have shown also that osmotic pressures lead to membrane deflection. That could be described quantitatively.},
  subject      = {Polyelektrolyt},
  language  = {en}
}