Laser surface micro/nano patterning for improving aerodynamic performance

Otanocha, Omonigho

January 2016

The use of ultrafast lasers in material surface engineering has gained pre-eminence in recent years. This is due to optimal utility arising from their versatility, better process control, repeatability and high precision fabrication, without need for post processing. Reported in this thesis are experimental results on the use of picosecond laser to produce micro-patterns on cyclone components and their effects on flow characteristics. Results show that micro- dimples achieved reduction in dust accumulation within a multi-cyclone system considered, up to 78%. These micro-dimples when applied on the cyclone roof effected a 3% reduction in inlet velocity and 5% reduction on the dynamic pressure across the cyclone, without dust introduction. Results support the possibility for energy savings, without compromise on cyclone overall separation efficiency. Findings further demonstrated the effects of micro-riblets on cyclonic airflow at the wall boundary. Research outcomes supported the view that surface roughness of the cyclone roof could contribute on its dust separation capacity. Injection moulding was used to produce bumps on ABS plastic materials utilising picosecond laser machined micro-dimples on H13 tool steel. A statistical model detailing the interactions between the critical factors involved with picosecond laser interaction with H13 for micro-patterning was proposed. Critical factors identified were laser fluence, scanning speed and number of laser scans. In addition, results demonstrated the suitability of predicting depth of 40 - 100 µm for H13 tool steel, with 96% accuracy. The findings in this research could be explored to develop embedded micro/nano-wires within riblets through injection moulding, to effect electrically biased charging within the internal walls of a cyclone to aid dust separation processes.

Laser Surface Alloying of Refractory Metals on Aluminum for Enhanced Corrosion Resistance: Experimental and Computational Approaches

Rajamure, Ravi Shanker

12 1900

Aluminum (Al) and its alloys are widely used in various technological applications, mainly due to the excellent thermal conductivity, non-magnetic, ecofriendly, easy formability and good recyclability. However due to the inferior corrosion resistance its applications are hampered in various engineering sectors. Besides, the corrosion related failures such as leakage of gas from pipeline, catastrophic breakdown of bridges and fire accidents in processing plants further puts the human life in jeopardy. Within the United States over $ 400 billion dollars per year are spent over research to understand and prevent the corrosion related failures. Recently, the development of transition metal(TM) aluminides (AlxTMy, where, TM = Mo, W, Ta, Nb, Cr, Zr and V) has received the global attention mainly due to high strength at elevated temperatures, light-weight, excellent corrosion and wear resistance. In light of this, surface modification via laser surface alloying (LSA) is a promising engineering approach to mitigate the corrosion and wear problems. In the present study the attempts are made to study the Al-Mo, Al-W, Al-Nb, and Al-Ta systems as a potential corrosion resistant coatings on aluminum. The refractory metal (Mo, W, Nb, Ta) precursor deposit was spray coated separately on aluminum substrate and was subsequently surface alloyed using a continuous wave diode-pumped ytterbium laser at varying laser energy densities. Microstructural analysis was conducted using scanning electron microscopy and further X-ray diffractometry was carried out to evaluate the various phases evolved during laser surface alloying. Corrosion resistance of laser alloyed coatings were evaluated using open circuit potential, cyclic potentiodynamic polarization, electrochemical impedance spectroscopy measurements were performed in 0.6 M NaCl solution (pH:6.9±0.2, 23˚C). Open circuit potential measurements indicate the more stable (steady state) potential values over long periods after laser surface alloying. Cyclic polarization results indicated reduction in the corrosion current density, enhancement in the polarization resistance, and increase in coating/protective efficiency with increase in laser energy density compared to untreated aluminum. Electrochemical impedance spectroscopy measurements also indicated an increase in charge transfer resistance after laser surface alloying of refractory metals on aluminum. Additionally, first principle calculations of thermodynamic, electronic and elastic properties of intermetallics evolved during LSA were also thoroughly investigated to correlate the corrosion performance of intermetallic coatings with these properties. The present study indicates that novel Al-Mo, Al-W, Al-Nb, and Al-Ta intermetallics has a great potential for light weight structural applications with enhanced corrosion resistance.

Corrosion

refractory metals

aluminum

laser surface engineering

Corrosion resistant alloys.

Aluminum alloys.

Heat resistant alloys.

Lasers -- Industrial applications.

Hematopoietic Stem Cell Differentiation inside Extracellular Matrix functionalized Microcavities

Kurth, Ina

03 May 2011

The bone marrow (BM) niche provides hematopoietic stem (HSC) and progenitor cells with many exogenous cues that tightly regulate homeostasis. These cues orchestrate cellular decisions, which are difficult to dissect and analyze in vivo. This thesis introduces a novel in vitro platform that permits systematic studies of BM-relevant factors that regulate homeostasis. Specifically, the role of 3D patterned adhesion ligands and soluble cytokines were studied in a combinatorial fashion. Analysis of human HSC differentiation and proliferation at both population and single cell level showed synergistic and antagonistic effects of adhesion- and cytokine-related signals. Those effects were dependent on the cytokine concentration and the distribution and number of adhesion ligands. The aim of this thesis was to model the in vivo bone marrow with its porous 3D structure and different sized niche compartments using a microcavity culture carrier. The developed culture system presented extracellular matrix (ECM) adhesion ligands to the HSCs in various defined dimensions ranging from single- to multi-cell capacity. The 3D open well geometry of the microcavity carriers also allowed HSCs to freely explore different scenarios including homing, migration, adhesion, or suspension. Furthermore, the developed setup offered straightforward accessibility to analytical methods like cytometry and quantitative microscopy. Single cell analysis of adherent HSCs showed decreased DNA synthesis and higher levels of stem cell marker expression within single cell microcavities under low cytokine conditions . This effect was reflected in a decline of proliferation and differentiation with decreasing microcavity size. When the cytokine concentration was increased2 beyond physiological levels the inhibitory effect on proliferation and differentiation due to single-cell-microcavity adherence was diminished. This result highlighted the fine balance between adhesion related and soluble cues regulating HSC fate. Within small microcavities more adhesion related receptors were engaged due to the 3D character of the culture carrier compared to multi-cell wells or conventional 2D cell culture plates. This study demonstrated that adhesion-related signal activation leads to reduced proliferation and differentiation. This geometry-based effect could be reversed by increased cytokine supplementation in the culture media. For plane substrates, HSCs attachment to fibronectin or heparin initiated early cell cycle entry compared to non-adherent cells during the initial 24h. Cytokine supplemented media favored integrin activation that induced fast adhesion, ultimately leading to early cell cycle activation. However, after prolonged cell culture the system balanced itself with a lower cycling rate of adherent versus non-adherent HSCs. Furthermore, HSCs within the 3-dimensionality of the microcavities cycled less than 2D adherent cells. These findings additionally supported the above stated idea of limited HSC proliferation as a consequence of more adhesion-related signals overwriting cytokine driven expansion. To complement the various in vitro studies, an in vivo repopulation study was performed. Cultured HSCs derived from single cell microcavities outperformed freshly isolated HSCs in a competitive repopulation assay, indicating that carefully engineered substrates are capable of preserving stem cell potential. Overall the reported findings provide a promising in vitro culture strategy that allows the stem cell field to gain a better understanding of the impact of distinct exogenous signals on human HSCs, which discloses new concepts for the wide scientific community working towards tissue engineering and regenerative medicine.:Kurzbeschreibung 4 Abstract 6 1 Introduction 8 1.1 Motivation 8 1.2 Objective 8 2 Basics 10 2.1 Stem Cells and their Role in Life 10 Stem Cells and their Niches 12 2.1.1 Hematopoietic Stem Cells 12 2.1.2 Hematopoietic Stem Cell Niche 14 2.1.3 The ECM Relevancy 16 2.1.4 HSC Relevant Cytokines 19 2.2 Cell Culture Scaffolds 21 2.2.1 General 2D, 3D 21 2.2.2 Substrate Engineering 22 2.2.3 Co-Culture versus the Artificial 3D Niche 23 3 Materials and Methods 25 3.1 Chemicals, Reagents and Equipment 25 3.2 Wafer Design and Surface Functionalization 29 3.3 Cell Culture and Analysis 31 3.3.1 HSC Culture in ECM-functionalized Microcavities 32 3.4 Surface Passivation 33 3.5 Mouse Bone Marrow Preparation 35 4 Results and Discussion 37 4.1 Scaffold Design and Preparation 37 4.1.1 Surface Characterization 37 4.1.2 Surface Passivation 39 Approaches for Surface Passivation 39 Efficiency of Surface Passivation 39 4.1.3 Redesigned Microcavities 43 4.2 Summarized Discussion of the Surface Passivation 44 4.3 HSC Culture inside Microcavities 45 4.3.1 HSC-ECM Interaction Reduces Proliferation 45 4.3.2 Population-wide Proliferation and Differentiation of Spatially Constrained HSCs . … 46 HSCs within Redesigned Microcavities 48 4.3.3 Colony-forming Ability of Microcavity Cultures 50 4.4 Single Cell Analysis of Differentiation 52 4.5 Cell Cycling Dependency on Cytokine Level 53 4.5.1 Plane Surfaces 54 4.5.2 Microcavities Reduce Cycling Frequency 57 4.6 Mice Repopulation of Microcavity Cultured HSCs 58 4.7 Summarized Discussion of the HSC–ECM Relation 60 4.8 Future Prospects 62 5 Summary 63 References 64 Figure Legend 73 Tables 73 Theses 74 6 Appendices I 6.1 FACS Principle I 6.1.1 HSC Staining for CD Marker and Cell Cycle Kinetics I 6.1.2 Apoptosis Test II 6.2 Differentiation and Proliferation on Redesigned Microcavities III 6.3 Colony-forming Capability of Microcavity Cultured Cells IV 6.4 Effect of Trypsin on HSC Properties in Long Term Culture IV 6.5 Surface Functionalization with SCF V 6.5.1 Analysis of the HSCs Grown on Immobilized SCF VI 6.5.2 SCF Immobilization and its Kinetics VII 6.5.3 c-kit Expression Kinetics and HSC Differentiation VIII Short Discussion on the Growth Factor Immobilization IX Publications X Posters X Proceedings XI Talks XI Patents XI Papers XI Awards XI 7 Danksagung: XII Selbstständigkeitserklärung: XIII / Die Homöostase der Hämatopoietischen Stamm- und Vorläuferzellen (HSC) in der Knochenmark Nische wird von einer Vielzahl exogener Faktoren gezielt reguliert. Diese Faktoren orchestrieren intrazelluläre Vorgänge, deren in vivo Analyse kompliziert ist. Die vorliegende These widmet sich einem neuen biotechnologischen Ansatz, der systematische Studien von Knochenmark-relevanten Faktoren ermöglicht. Im Speziellen wurde die Rolle 3D-präsentierter Zell Adhäsionsliganden in Kombination mit verschiedenen Konzentrationen löslicher Zytokine untersucht. Die Auswertung der Proliferation und Differenzierung von humanen HSC auf Einzelzell- und Populationsebene offenbarte die synergistischen und antagonistischen Effekte von Adhäsions- und Zytokinsignalen in ihrer Abhängigkeit von der Verteilung und der Anzahl von Adhäsionsliganden sowie der Zytokinkonzentration. Um die poröse Struktur des Knochenmarks in vivo-ähnlich darzustellen, wurde eine Zellkultur Plattform mit Mikrokavitäten verschiedenster Dimensionen von Multi- bis Einzelzellgröße entwickelt und mit Molekülen der extrazellulären Matrix beschichtet. Die Vorteile dieser Plattform liegen in der offenen 3D-Geometrie dieses mikrokavitäten Kultursystems, die den Zellen ermöglichte verschiedene Wachstumsbedingungen bezüglich Homing, Migration, Adhäsion oder Suspension frei zu erkunden. Das leicht zugängliche Setup eignete sich zudem hervorragend für die zytometrische Analyse der Zellen oder die quantitative Mikroskopie. Die Einzelzellanalyse adhärenter HSC ergab eine Reduktion von DNA Synthese und eine höhere Expression von Stammzelloberflächenfaktoren innerhalb der Einzelzell-Mikrokavitäten bei niedrigen Zytokinkonzentrationen . Dieser Effekt spiegelte sich auch auf Populationsebene in verminderter Proliferation und Differenzierung mit abnehmender Größe der Mikrokavitäten wider. Wurde die Zytokinkonzentration jedoch weit über physiologische Bedingungen erhöht, verminderte sich der Effekt (reduzierte DNA Synthese und höhere Stammzellfaktorexpression) beschrieben für die Einzelzellmikrokavitäten. Dieses Ergebnis verdeutlicht die empfindliche intrazelluläre Balance, vermittelt durch Adhäsionsignale und löslichen Faktoren, die das Verhalten von HSCs regulieren. Aufgrund des 3D-Charakters des Zellkulturträgers wurden innerhalb kleiner Mikrokavitäten mehr Adhäsionsrezeptoren ringsum die Zelle aktiviert. Dieser Vorteil gegenüber den Multizellkavitäten oder der herkömmlichen 2D–Zellkultur ermöglichte eine hohe Anzahl adhäsionsvermittelter Signale mit entsprechend höherer Proliferations-inhibitorischer Wirkung. Je höher die Konzentration der Zytokine war, desto stärker erfolgte die Stimulation der Proliferation und Differenzierung. Auf 2D Substraten, initiierte Adhäsion zu Fibronektin und Heparin innerhalb der ersten 24h einen frühen Zell-Zyklus-Start im Gegensatz zu nicht adhärenten Zellen. Die Zytokine im Zellmedium förderten die Integrin Aktivierung, was zu einer schnellen Zelladhäsion führte. Die Adhäsionsrezeptoren wiederum kooperieren mit Zytokinrezeptoren im Zellinneren und begünstigten damit einen zeitigeren Zell-Zyklus- Start. Allerdings stellte sich danach ein Gleichgewicht im Kultursystem ein, wobei weniger adhärente Zellen als nicht-adhärente Zellen den Zellzyklus durchliefen. Des Weiteren war die Zellzyklusrate innerhalb von 3D Mikrokavitäten niedriger verglichen mit herkömmlichen 2D Substraten. Diese Ergebnisse bestätigen ferner obenstehende These, dass Zytokin-induzierte Zellexpansion durch erhöhte Zelladhäsions-vermittelte Signale überschrieben wird. Um die in vitro Studien zu komplettieren wurde ein in vivo Repopulationsversuch durchgeführt. HSC kultiviert auf Einzel-Zell-Mikrokavitäten übertrafen frisch isolierte Konkurrenz-Zellen in einem kompetitiven Repopulationsversuch. Dieses erste Ergebnis zeigt, dass sich der Zellgröße entsprechende Biomaterialien für die erfolgreiche Stammzell-Kultur eignen. Die Ergebnisse dieser Arbeit bieten eine vielversprechende in vitro Zellkulturstrategie, die ein besseres Verständnis der Einflüsse von exogenen Signalen auf HSC erlaubt und damit eine Grundlage für neue Erkenntnisse in Richtung erfolgreicheres Tissue Engineering und klinische Anwendungen im Bereich der regenerativen Medizin bildet.:Kurzbeschreibung 4 Abstract 6 1 Introduction 8 1.1 Motivation 8 1.2 Objective 8 2 Basics 10 2.1 Stem Cells and their Role in Life 10 Stem Cells and their Niches 12 2.1.1 Hematopoietic Stem Cells 12 2.1.2 Hematopoietic Stem Cell Niche 14 2.1.3 The ECM Relevancy 16 2.1.4 HSC Relevant Cytokines 19 2.2 Cell Culture Scaffolds 21 2.2.1 General 2D, 3D 21 2.2.2 Substrate Engineering 22 2.2.3 Co-Culture versus the Artificial 3D Niche 23 3 Materials and Methods 25 3.1 Chemicals, Reagents and Equipment 25 3.2 Wafer Design and Surface Functionalization 29 3.3 Cell Culture and Analysis 31 3.3.1 HSC Culture in ECM-functionalized Microcavities 32 3.4 Surface Passivation 33 3.5 Mouse Bone Marrow Preparation 35 4 Results and Discussion 37 4.1 Scaffold Design and Preparation 37 4.1.1 Surface Characterization 37 4.1.2 Surface Passivation 39 Approaches for Surface Passivation 39 Efficiency of Surface Passivation 39 4.1.3 Redesigned Microcavities 43 4.2 Summarized Discussion of the Surface Passivation 44 4.3 HSC Culture inside Microcavities 45 4.3.1 HSC-ECM Interaction Reduces Proliferation 45 4.3.2 Population-wide Proliferation and Differentiation of Spatially Constrained HSCs . … 46 HSCs within Redesigned Microcavities 48 4.3.3 Colony-forming Ability of Microcavity Cultures 50 4.4 Single Cell Analysis of Differentiation 52 4.5 Cell Cycling Dependency on Cytokine Level 53 4.5.1 Plane Surfaces 54 4.5.2 Microcavities Reduce Cycling Frequency 57 4.6 Mice Repopulation of Microcavity Cultured HSCs 58 4.7 Summarized Discussion of the HSC–ECM Relation 60 4.8 Future Prospects 62 5 Summary 63 References 64 Figure Legend 73 Tables 73 Theses 74 6 Appendices I 6.1 FACS Principle I 6.1.1 HSC Staining for CD Marker and Cell Cycle Kinetics I 6.1.2 Apoptosis Test II 6.2 Differentiation and Proliferation on Redesigned Microcavities III 6.3 Colony-forming Capability of Microcavity Cultured Cells IV 6.4 Effect of Trypsin on HSC Properties in Long Term Culture IV 6.5 Surface Functionalization with SCF V 6.5.1 Analysis of the HSCs Grown on Immobilized SCF VI 6.5.2 SCF Immobilization and its Kinetics VII 6.5.3 c-kit Expression Kinetics and HSC Differentiation VIII Short Discussion on the Growth Factor Immobilization IX Publications X Posters X Proceedings XI Talks XI Patents XI Papers XI Awards XI 7 Danksagung: XII Selbstständigkeitserklärung: XIII

info:eu-repo/classification/ddc/570

ddc:570

Developing Surface Engineered Liquid Crystal Droplets For Sensing Applications

Bera, Tanmay

01 January 2012

Diagnosis plays a very crucial role in medicine and health care, which makes biosensors extremely important in modern technological context. Till date, various types of biosensors have been developed that are capable of detecting a wide range of biologically important species with great sensitivity and selectivity. However, most of these sensing units require highly sophisticated instrumentation and often lack the desired portability. Liquid crystal (LC) droplets, on the other hand, are a new type of functional material that are finding increasing research attention as a new sensing unit due to their tunable optical property, high surface area, portability and cost-effectiveness. In this dissertation, functionalized LC droplets for biosensing at aqueous-LC interface are highlighted. Chemically functionalized LC droplets dispersed in aqueous solution were prepared by the self-assembly of amphiphilic molecules at the aqueous/LC interface. These functionalized LC droplets showed a well-defined director of configuration and a specific optical pattern when observed with a polarizing light microscope. It was discovered that the interaction of chemically functionalized LC droplets with an analyte triggers transition of the director of configuration of the LC within the droplets, providing a simple and unique optical sign for the detection of the analyte. Moreover, the director of configuration transition happened in a concentration dependent manner, allowing both qualitative and quantitative detection of the analyte. The sensitivity of chemically functionalized LC droplets depends not only on the nature of amphiphilic molecules but also the size and number of the droplets. iv The dissertation essentially deals with the application of these chemically functionalized LC droplets in detecting several biologically important species. It was observed that the adsorption of charged macromolecules (dendrimers, proteins, and viruses) on polyelectrolyte functionalized LC droplets triggered a bipolar-to-radial configuration transition based on the polar verses nonpolar interaction. By using a simple optical microscope, microgram per milliliter concentrations of bovine serum albumin, cowpea mosaic virus, and tobacco mosaic virus could be detected in aqueous solution. The detection limit of Mastoparan X polypeptide decorated LC droplets in detecting E. coli could reach to approximately 10 bacteria per milliliter. In this case, the high affinity of the polypeptide towards the bacterial causes the former to detach from the LC droplets, triggering the director of configuration transition of the LC inside the droplets. Finally, surfactant decorated LC droplets were used to detect lithocholic acid (LCA), a toxic bile acid used as a specific biomarker for colon cancers. In this case, the director of configuration transition of the LC inside the droplets is a result of the replacement of the surfactant from the aqueous/LC interface by LCA. The microgram per milliliter concentration of LCA, a clinically significant concentration, could be easily detected by changing the length of surfactants. These studies highlight the novel use of surface functionalized LC droplets to detect biologically important species. Due to their tunable optical property, coupled with high surface area and portability, surface functionalized LC droplets have great potentials in the design of next generation biosensors

Biosening

liquid crystal droplets

surface engineering

colloids and interfaces

self assembly

softmatter

pathogen detection

carcinogen detectionsurf

Engineering

Materials Science and Engineering

Local release of lithium from sol-gel coated orthopaedic screws : an <em>in</em><em> vitro</em> and<em> in vivo</em> study

Altgärde, Noomi

January 2009

<p> </p><p>In orthopaedic practice, fractures are usually stabilised with metal screws or rods. This is done in order to keep the fracture parts in place during the rather slow healing process. The healing time can potentially be reduced by local- or systemic treatment with different bone promoting drugs. In later years, lithium, otherwise used to treat bipolar disease, has shown promise to be such a drug.</p><p> </p><p>The aim of this master thesis was to find a way to coat metal bone screws with lithium and to characterise the coating. The coating was to be designed in such a way that it could release lithium to the surrounding bone tissue.</p><p> </p><p>Lithium chloride was incorporated into a titanate sol-gel and attached to silicon wafers and stainless steel screws by dip coating. Wafers were used for initial <em>in vitro</em> studies of how lithium changed coating characteristics. This was studied using ellipsometry, AFM and SEM. Lithium is most probably physisorbed and not incorporated into the network building up the sol-gel. Coating structure is changed as more lithium is incorporated. For large amounts of lithium, the nanoparticles normally formed when curing the sol-gel are inhibited. One effect of this is reduced bioactivity, seen as a reduced ability for calcium phosphate crystals to nucleate on the coating when immersed in simulated body fluid.</p><p>Lithium release was investigated using AAS. Lithium is released from the coating, showing a burst effect. By changing the number of coating layers used, the release profile can be partly altered. The coating was also applied to screws, showing good attachment, and the lithium release profile was similar to the one seen from wafers.</p><p>Finally, a screw model was used in rats to assess the effect of local lithium treatment from screws and systemic lithium treatment on fracture healing. In the model, a screw was inserted in tibia, mimicking a fracture. When the bone around the screw was healed, a pullout test was performed, giving information about the strength of the bone surrounding the screw. No significant difference could be found for either local- or systemic lithium treatment compared to control. However, when evaluating the strength of intact bone in a similar way, a positive effect of systemic lithium treatment could be seen. Therefore, it is still likely that lithium has a positive effect on bone and further studies are needed to fully evaluate its role in fracture healing.</p><p> </p> / <p><p>Vid behandling av benbrott stabiliseras vanligtvis frakturen internt med metallskruvar och</p><p>metallstavar. Detta görs för att hålla brottbitarna på plats under den relativt långsamma läkprocessen. Det är möjligt att minska tiden för frakturläkning genom att lokalt eller systemiskt behandla med olika läkemedel som främjar bentillväxt. På senare år har det presenterats bevis för att litium, som annars används som psykofarmaka, fungerar som ett sådant läkemedel.</p><p> </p><p>Syftet med detta examensarbete var att hitta en metod för att fästa litium på benimplantat. Litium skulle fästas på ett sådant sätt att frisläppning till omgivande vävnad blev möjlig.</p><p> </p><p>Litiumklorid inkorporerades i en titanat-solgel och lager av detta lades på kiselytor och rostfria skruvar genom s.k. ”dip-coating”. Kiselytorna användes för initiala <em>in vitro</em>-studier av hur litium ändrade beläggningens egenskaper. Litium sitter antagligen fast på ytan av det tredimensionella nätverk som utgör solgelen, istället för att sitta inbundet i nätverket. Lagerstrukturen ändras ju mer litium som inkorporeras och vid stora mängder skapas inte de nanopartiklar som vanligtvis finns i en solgel-baserad beläggning. En följd av detta är reducerad bioaktivitet för beläggningen, dvs. en minskad förmåga för kalciumfosfatkristaller att bildas på ytan. Litium frisläpps från beläggningen, dock sker denna frisläppning snabbt. Genom att belägga ytan med flera lager av solgel kan frisläppningskinetiken delvis ändras. Solgelen kunde också med god vidhäftning appliceras på skruvar och frisläppningskinetiken från en skruv är liknande den från en kiselyta.</p>Slutligen användes en skruvmodell i råtta för att undersöka vilken effekt lokal respektive systemisk litiumbehandling har på frakturläkning. I modellen efterliknas ett benbrott genom att en skruv sätts in i skenbenet.  När benvävnaden runt skruven har läkt görs ett utdragstest på skruven vilket ger information om benets styrka. Ingen signifikant skillnad i skruvens utdragskraft kunde ses mellan de båda försöksgrupperna och kontrollgruppen. Däremot hade gruppen som fick systemisk litiumbehandling fått starkare ben totalt, vilket indikerar att litium har effekt på <em>intakt</em> ben. På grund av dessa resultat finns det fortfarande skäl att tro att litium har en positiv påverkan på ben, varför dess effekt på frakturläkning bör undersökas ytterligare. </p>

Other bioengineering

Övrig bioteknik

Medical engineering

Medicinsk teknik

Material physics with surface physics

Materialfysik med ytfysik

Surface engineering

Ytbehandlingsteknik

Orthopaedics

Ortopedi

Local release of lithium from sol-gel coated orthopaedic screws : an in vitro and in vivo study

Altgärde, Noomi

January 2009

In orthopaedic practice, fractures are usually stabilised with metal screws or rods. This is done in order to keep the fracture parts in place during the rather slow healing process. The healing time can potentially be reduced by local- or systemic treatment with different bone promoting drugs. In later years, lithium, otherwise used to treat bipolar disease, has shown promise to be such a drug.   The aim of this master thesis was to find a way to coat metal bone screws with lithium and to characterise the coating. The coating was to be designed in such a way that it could release lithium to the surrounding bone tissue.   Lithium chloride was incorporated into a titanate sol-gel and attached to silicon wafers and stainless steel screws by dip coating. Wafers were used for initial in vitro studies of how lithium changed coating characteristics. This was studied using ellipsometry, AFM and SEM. Lithium is most probably physisorbed and not incorporated into the network building up the sol-gel. Coating structure is changed as more lithium is incorporated. For large amounts of lithium, the nanoparticles normally formed when curing the sol-gel are inhibited. One effect of this is reduced bioactivity, seen as a reduced ability for calcium phosphate crystals to nucleate on the coating when immersed in simulated body fluid. Lithium release was investigated using AAS. Lithium is released from the coating, showing a burst effect. By changing the number of coating layers used, the release profile can be partly altered. The coating was also applied to screws, showing good attachment, and the lithium release profile was similar to the one seen from wafers. Finally, a screw model was used in rats to assess the effect of local lithium treatment from screws and systemic lithium treatment on fracture healing. In the model, a screw was inserted in tibia, mimicking a fracture. When the bone around the screw was healed, a pullout test was performed, giving information about the strength of the bone surrounding the screw. No significant difference could be found for either local- or systemic lithium treatment compared to control. However, when evaluating the strength of intact bone in a similar way, a positive effect of systemic lithium treatment could be seen. Therefore, it is still likely that lithium has a positive effect on bone and further studies are needed to fully evaluate its role in fracture healing. / Vid behandling av benbrott stabiliseras vanligtvis frakturen internt med metallskruvar och metallstavar. Detta görs för att hålla brottbitarna på plats under den relativt långsamma läkprocessen. Det är möjligt att minska tiden för frakturläkning genom att lokalt eller systemiskt behandla med olika läkemedel som främjar bentillväxt. På senare år har det presenterats bevis för att litium, som annars används som psykofarmaka, fungerar som ett sådant läkemedel.   Syftet med detta examensarbete var att hitta en metod för att fästa litium på benimplantat. Litium skulle fästas på ett sådant sätt att frisläppning till omgivande vävnad blev möjlig.   Litiumklorid inkorporerades i en titanat-solgel och lager av detta lades på kiselytor och rostfria skruvar genom s.k. ”dip-coating”. Kiselytorna användes för initiala in vitro-studier av hur litium ändrade beläggningens egenskaper. Litium sitter antagligen fast på ytan av det tredimensionella nätverk som utgör solgelen, istället för att sitta inbundet i nätverket. Lagerstrukturen ändras ju mer litium som inkorporeras och vid stora mängder skapas inte de nanopartiklar som vanligtvis finns i en solgel-baserad beläggning. En följd av detta är reducerad bioaktivitet för beläggningen, dvs. en minskad förmåga för kalciumfosfatkristaller att bildas på ytan. Litium frisläpps från beläggningen, dock sker denna frisläppning snabbt. Genom att belägga ytan med flera lager av solgel kan frisläppningskinetiken delvis ändras. Solgelen kunde också med god vidhäftning appliceras på skruvar och frisläppningskinetiken från en skruv är liknande den från en kiselyta. Slutligen användes en skruvmodell i råtta för att undersöka vilken effekt lokal respektive systemisk litiumbehandling har på frakturläkning. I modellen efterliknas ett benbrott genom att en skruv sätts in i skenbenet.  När benvävnaden runt skruven har läkt görs ett utdragstest på skruven vilket ger information om benets styrka. Ingen signifikant skillnad i skruvens utdragskraft kunde ses mellan de båda försöksgrupperna och kontrollgruppen. Däremot hade gruppen som fick systemisk litiumbehandling fått starkare ben totalt, vilket indikerar att litium har effekt på intakt ben. På grund av dessa resultat finns det fortfarande skäl att tro att litium har en positiv påverkan på ben, varför dess effekt på frakturläkning bör undersökas ytterligare.

Other bioengineering

Övrig bioteknik

Medical engineering

Medicinsk teknik

Material physics with surface physics

Materialfysik med ytfysik

Surface engineering

Ytbehandlingsteknik

Orthopaedics

Ortopedi

Biomolecular strategies for cell surface engineering

Wilson, John Tanner

09 January 2009

Islet transplantation has emerged as a promising cell-based therapy for the treatment of diabetes, but its clinical efficacy remains limited by deleterious host responses that underlie islet destruction. In this dissertation, we describe the assembly of cell surface-supported thin films that confer molecular-level control over the composition and biophysicochemical properties of the islet surface with implications for improving islet engraftment. Specifically, the process of layer-by-layer (LbL) polymer self assembly was employed to generate nanothin films of diverse architecture with tunable properties directly on the extracellular surface of individual islets. Importantly, these studies are the first to report in vivo survival and function of nanoencapsulated cells, and have helped establish a conceptual framework for translating the diverse applications of LbL films to cellular interfaces. Additionally, through proper design of film constituents, coatings displaying ligands and bioorthogonally reactive handles may be generated, providing a modular strategy for incorporating exogenously derived regulators of host responses alongside native constituents of the islet surface. Towards this end, a strategy was developed to tether thrombomodulin to the islet surface in a site-specific manner, thereby facilitating local generation of the powerful anti-inflammatory agent, activated protein C. Collectively, this work offers novel biomolecular strategies for cell surface engineering with broad biomedical and biotechnological applications in cell-based therapeutics and beyond.

Cell encapsulation

Islet transplantation

Cell surface engineering

Layer-by-layer self assembly

Thrombomodulin

Conformal coating

Cell membranes

Glycoproteins

Islands of Langerhans

Islands of Langerhans Transplantation

Film Formation and Surface Tension Studies of Powder Coatings

Adler, Jeanette

January 2005

<p>In industrial use of paint systems a swift processing is crucial. Another very important issue is to improve the quality of the final coating. This report investigates the film formation process of powder coatings, specially the spreading of individual powder particles. The obtained results can be used to understand and control the film formation process. In this way the desired levelling can be achieved and thus the desired gloss or other surface characteristics that may be required. This means that the method could be used when evaluating different polymer and additive combinations that could be used to change film formation behaviour or curing time for powder coating systems to suit various substrates. It makes it possible to avoid and minimize different surface defects as orange peel or cratering in the powder coated film.</p><p>We used a reflection optical microscope to better understand the film formation process and especially the spreading of a powder melt on surfaces with various surface energies. The obtained data were: the particle diameter, the area, area ratio and the contact angle of the powder particle as a function of time and temperature. This information can be used to derive the surface tension of any powder melt.</p><p>In this report we evaluate the dependencies of temperature, heat rate and surface energy for powder coatings on different substrates. The method provides information that can be used to optimize the film formation of a specific powder coating/substrate combination. This method can be used to evaluate the powder spreading and levelling on different substrates from a surface tension point of view.</p><p>We found, as expected, that the powder flows out on a hydrophilic surface and is inhibited by a hydrophobic. The increase of the area ratio on a hydrophilic surface was about five times as the initial area coverage and on a hydrophobic surface only two times the initial area coverage. The contact angle between the melted powder particle on the different surface types could be calculated. The melt surface tension could be calculated since three substrates surfaces with various surface energies were used. The melt surface tension was found to be about 18.5 mN/m.</p> / <p>Sammanfattning</p><p>Vid industriell användning av ett färgsystem är det viktigt med en snabb och smidig målningsprocess. En viktig del är att förbättra kvaliteten på den färdiga ytan. Denna rapport undersöker filmbildningsprocessen för pulverfärg, närmare bestämt spridningen av individuella pulverpartiklar. Resultaten från utvärderingen av denna metod kan användas för att bättre förstå och få kontroll över filmbildningsprocessen. Med denna undersökningsmetod kan den önskade utslätningen uppnås och därmed den önskade glansen eller annan yteffekt som kan vara önskvärd.</p><p>Metoden kan användas för att utvärdera olika polymer- och additivkombinationer som kan användas för att ändra filmbildningens uppförande eller bestämma härdningstiden för en pulverfärg att passa ett visst substrat. Metoden gör det möjligt att förhindra och minska olika ytdefekter såsom apelsinskals- eller kratereffekter i pulverfärgens yta.</p><p>Ett optiskt reflectionsmikroskop användes för att bättre kunna förstå filmbildningsprocessen och särskilt spridningen av smält pulver på substrat med olika ytenergier. De mätdata vi fick var partikeldiameter, area, areaförändring och kontaktvinkeln för pulverpartiklar som funktion av tid och temperatur. Ur denna information kunde pulversmältans ytenergier härledas.</p><p>I denna rapport utvärderas pulvrets beroende av temperatur, uppvärmning och ytenergi på olika substrat. Denna metod ger information som kan användas för att optimera filmbildningen av en specifik kombination av pulverfärg och substrat. Denna metod kan också användas för att utvärdera pulverspridning och utjämning av färgfilmen på olika substrat med avseende på ytenergierna.</p><p>Som förväntat flyter pulvret ut på hydrofila ytor och utflytningen ändras på en hydrofob yta. På en hydrofil yta sprider sig partikeln till fem gånger den ursprungliga arean över substratet och motsvarande två gånger för en hydrofob yta. Kontaktvinkeln mellan en smält pulverpartikel på olika sorters substrat från utförda mätningar beräknas utifrån utförda mätningar. Kontaktvinklar mellan pulver och olika substrat kan användas för att beräkna smältans ytspänning. Smältans ytspänning kan beräknas då experiment gjorts på tre sorters ytor med olika kända ytenergier. Smältans ytspänning var 18,5 mN/m.</p><p>Slutsatsen är att det går att observera och utvärdera resultaten av utsmältningsförloppet för pulverfärg med denna metod.</p>

Powder Coatings

surface tension

surface energy

contact angle

surface

film formation

time

temperature

powder particle spreading

heating profile

wetting

microscope

surface defects

levelling

curing time

Surface engineering

Ytbehandlingsteknik

Materials for depollution based on the model of manganese dioxygenases

Chaignon, Jérémy, Chaignon, Jérémy

20 December 2013

The objective of this work is the synthesis of model material for manganese dioxygenase which is an enzyme that oxidizes catechol-like substrates with dioxygen. Our strategy comprises three main steps that form the different chapters of this thesis: - Synthesis and characterization of manganese(II) complexes with tridentate ligands. - Optimization of a microwave-assisted synthesis of a mesoporous silica. - Functionalization of these materials and complex grafting, as well as preliminary catalytic tests. The ligands used are tertiary amines containing an alkyne arm and two coordinating arms with functions such as pyridine, imidazole or carboxylate. The complexes were crystallized and/or characterized by IR, EPR, SQUID and cyclic voltamperometry. Microwave synthesis, based on the conditions of classical hydrothermal synthesis, allowed us to reduce the synthesis time from one day to two hours. The quality of these new materials was verified by IR, TGA, BET and powder XRD. These materials are then bi-functionalized using a molecular stencil patterning mehod with a an azide function for complex grafting via click chemistry and a function pyridine or trimethylsilyl to control the coordinating ability of the metal environment. These complexes and materials are active in catechol oxidation with O2.

[CHIM:OTHE] Chemical Sciences/Other

[CHIM:OTHE] Chimie/Autre

Porous materials

Microwave synthesis

Manganese(II) complexes

Catalysis

Catechol oxidation

Silica materials

Surface engineering

Crystal structure

Magnetic susceptibility

Metody depozice tenkých vrstev pomocí nízkoteplotního plazmatu / Deposition methods of thin films using low-temperature plasma

GÜNZEL, Martin

January 2013

This thesis is focused on the description of selected deposition methods of thin films using low-temperature plasma. Currently, many various technologies of thin films are developed and there are many applications in various industrial sectors. This thesis first gives a brief overview of deposition methods, plasma behavior during deposition and subsequent description of the selected methods of application due to the physical and chemical processes. They also discussed the advantages and disadvantages of the described coating technologies, and several examples of their use. The thesis should thus contribute to the overall view of modern coating technologies, their development and use currently, or possible use in the future.