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Kemiskt försvar mot havstulpanskolonisering i marina svampdjurBohlin, Nina January 2013 (has links)
The purpose of this project is to analyze and study the absorption of the substances ivermectin, spinosad and barettin to hydrophobic and hydrophilic surfaces, and to analyze and study if the barnacle larva are effected when they try to settle on the treated surface. Incubation tests with barnacle larva in Petri dishes were performed as well as absorption tests on hydrophobic and hydrophilic surfaces which were tested with ellipsometry. To determine the surface thickness. The barnacles were placed in hydrophobic as well as hydrophilic Petri dishes that had been incubated with ivermectin, spinosad or barettin. After four to six days the larva was counted to analyze the settling. From the results conclusions could be drawn about the adsorption abilities of the substances to the different surfaces. The barnacles were placed in hydrophobic as well as hydrophilic Petri dishes that had been incubated with ivermectin, spinosad or barettin. After four to six days the larva was counted to analyze the settling. From the results conclusions could be drawn about the adsorption abilities of the substances to the different surfaces. To analyze the adsorption abilities, pieces of silicon oxide were prepared with hydrophobic and hydrophilic poly dimethyl siloxan groups, and albumine. The pieces were then analyzed with ellipsometry. The larva's mortality was very high in the first tests. It can be explained with them being stored too cold the first days, which might have caused their death. It might also be because of contamination from the net used to move the larva, since it was in contact with all the substances concentrations. The standard deviations from the ellipsometry tests are very high, most likely due to uneven adsorption of the substances to the surface. With more tests and measurements, more accurate results could have been sustained The purpose of this project is to analyze and study the absorption of the substances ivermectin, spinosad and barettin to hydrophobic and hydrophilic surfaces, and to analyze and study if the barnacle larva are effected when they try to settle on the treated surface. Incubation tests with barnacle larva in Petri dishes were performed as well as absorption tests on hydrophobic and hydrophilic surfaces which were tested with ellipsometry. To determine the surface thickness. The barnacles were placed in hydrophobic as well as hydrophilic Petri dishes that had been incubated with ivermectin, spinosad or barettin. After four to six days the larva was counted to analyze the settling. From the results conclusions could be drawn about the adsorption abilities of the substances to the different surfaces. The barnacles were placed in hydrophobic as well as hydrophilic Petri dishes that had been incubated with ivermectin, spinosad or barettin. After four to six days the larva was counted to analyze the settling. From the results conclusions could be drawn about the adsorption abilities of the substances to the different surfaces. To analyze the adsorption abilities, pieces of silicon oxide were prepared with hydrophobic and hydrophilic poly dimethyl siloxan groups, and albumine. The pieces were then analyzed with ellipsometry. The larva's mortality was very high in the first tests. It can be explained with them being stored too cold the first days, which might have caused their death. It might also be because of contamination from the net used to move the larva, since it was in contact with all the substances concentrations. The standard deviations from the ellipsometry tests are very high, most likely due to uneven adsorption of the substances to the surface. With more tests and measurements, more accurate results could have been sustained
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Optisk karakterisering av tunna SiO2/NiO-filmer syntetiserade med en sol-gelmetodMenxhiqi, Albana January 2011 (has links)
In an attempt to develop a more cost-efficient material for solar energy applications, nano-particles of nickel oxide composite in a silikatmatris manufactured with solar gelmethod and studied structurally by electron microscopy. Furthermore, the thin film optical properties characterized by Variable. Angel Spectroscopic Ellipsometry. Sol gelfilms suitability as a selective absorber surface is also analyzed by optical modeling. / I ett försök att utveckla mer kostnadseffektiva material för solenergitillämpningar har nanopartiklar av nickeloxid inbäddadats i en silikatmatris tillverkats med sol-gelmetoder och undersökts strukturellt med elektronmikroskopi. Vidare har de tunna filmernas optiska egenskaper karakteriserats med vinkelupplöst spektroskopisk ellipsometri. Sol-gelfilmernas lämplighet som en selektiv absorbatoryta har också analyseras genom optisk modellering.
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Adsorption of biopolymers and their layer-by-layer assemblies on hydrophilic surfacesLundin, Maria January 2009 (has links)
It is widely known that surfaces play an important role in numerous biological processes and technological applications. Thus, being able to modify surface properties provides an opportunity to control many phenomena occurring at interfaces. One way of controlling surface properties is to adsorb a polymer film onto the surface, for example through layer-by-layer (LbL) deposition of polyelectrolytes. This simple but versatile technique enables various polymers, proteins, colloidal particles etc. to be incorporated into the film, resulting in a multifunctional coating. Due to recent legislations and a consumer demand for more environmentally friendly products, we have chosen to use natural polymers (biopolymers) from renewable resources. The focus of this thesis has been on the adsorption of biopolymers and their layer-by-layer formation at solid-liquid interfaces; these processes have been studied by a wide range of techniques. The main method was the quartz crystal microbalance with dissipation monitoring (QCM-D), which measures the adsorbed mass, including trapped solvent and the viscoelastic properties of an adsorbed film. This technique was often complemented with an optical method, such as ellipsometry or dual polarization interferometry (DPI), which provided information about the “dry” polymer or protein adsorbed mass. From this combination, the solvent content and density of the layers was evaluated. In addition, the surface force apparatus (SFA), X-ray photoelectron spectroscopy (XPS), total internal reflection fluorescence (TIRF), and fluorescence resonance energy transfer (FRET) were utilized, providing further information about the film structure, chemical composition, and polymer inter-layer diffusion. Adsorption studies of the glycoprotein mucin, which has a key role in the mucousal function, showed that despite the net negative charge of mucin, it adsorbed on negatively charged substrates. The adsorbed layer was highly hydrated and the segment density on the substrate was low. We showed the importance of characterizing the mucin used, since differences in purity, such as the presence of albumin, gave rise to different adsorption behaviours in terms of both adsorbed amount and structure. The adsorbed mucin layer was to a large extent desorbed upon exposure to the anionic surfactant sodium dodecyl sulfate (SDS). In order to prevent desorption, we demonstrated that a protective layer of the cationic polysaccharide chitosan could be adsorbed onto the mucin layer and that the mucin-chitosan complexes resisted the desorption normally induced by association with SDS. Moreover, the association between chitosan and SDS was examined at the solid-liquid interface, in the bulk, and at the air-water interface. In all these environments chitosan-SDS complexes were formed and a net charge reversal of the complexes from positive to negative was observed when the concentration of SDS was increased. Furthermore, the LbL deposition method could be used to form a multilayer-like film by alternate adsorption of mucin and chitosan on silica substrates. The LbL technique was also applied to two proteins, lysozyme and β-casein with the aim of building a multilayer film consisting entirely of proteins. These proteins formed complexes at the solid-liquid interface, resulting in a proteinaceous layer, but the build-up was highly irregular with an increase in adsorbed amount per protein deposition cycle that was far less than a monolayer.Continuing with chitosan, known to have antibacterial properties we assembled multilayers with an anti-adhesive biopolymer, heparin, to evaluate the potential of this system as a coating for medical implants. Multilayers were assembled under various solution deposition conditions and the film structure and dynamics were studied in detail. The chitosan-heparin film was highly hydrated, in the range 60-80 wt-% depending on the deposition conditions. The adsorbed amount and thickness of the film increased exponential-like with the number of deposition steps, which was explained by inter-diffusion of chitosan molecules in the film during the build-up. In a novel approach, we used the distant dependent FRET technique to prove the inter-layer diffusion of fluorescent-labelled chitosan molecules within the film. The diffusion coefficient was insignificantly dependent on the deposition pH and ionic strength, and hence on the film structure. With the use of a pH sensitive dye buried under seven chitosan-heparin bilayers, we showed that the dye remained highly sensitive to the charge of the outermost layer. From complementary QCM-D data, we suggested that an increase in the energy dissipation does not necessarily indicate that the layer structure becomes less rigid. / Det är välkänt att ytor spelar en viktig roll i många biologiska processer och tekniska tillämpningar. Att kunna modifiera en ytas egenskaper ger därför en möjlighet att kunna kontrollera många fenomen som sker på ytor. Ett sätt att kontrollera ytegenskaperna är genom att adsorbera en polymerfilm på ytan, till exempel genom att växelvis adsorbera olika polyelektrolyter (LbL-teknik). Denna enkla men mångsidiga teknik möjliggör att många olika material kan införlivas i filmen, vilket resulterar i en multifunktionell beläggning. På grund av dagens lagstiftning och konsumenters ökade efterfrågan på miljövänliga material beslutade vi oss för att använda biologiska polymerer (biopolymerer) i detta projekt. Fokus i den här avhandlingen har varit på adsorption av biopolymerer och deras LbL-formation på gränsytan vätska-fast fas, där adsorptionsförloppet och det adsorberade skiktet bestående av biopolymerer studerats med en mängd olika tekniker. Huvudtekniken var kvartskristallmikrovåg med energidissipations-registrering (QCM-D), som mäter massan inklusive inkorporerat vatten, samt de viskoelastiska egenskaperna hos ett adsorberat skikt. Som komplement till denna teknik användes ofta optiska metoder, till exempel ellipsometri och ”dubbel polarisationsinterferometri (DPI)”, två tekniker som endast mäter massan av de adsorberade biopolymererna. Genom denna kombination av metoder kunde massan av inkorporerat vatten i filmen och filmens densitet bestämmas. Dessutom användes ytkraftsapparaten (SFA), röntgenfotoelektronspektrometri (XPS), och fluorescens-spektroskopiteknikerna TIRF och FRET i några undersökningar för att erhålla information om skiktens struktur, kemiska sammansättning och polymerernas diffusion inom skiktet.Adsorptionsstudier av glycoproteinet mucin, som har en central roll i funktionen av slemhinnan, avslöjade att trots att mucinet har en negativ nettoladdning adsorberade det ändå på negativt laddade substrat. Det adsorberade lagret var väldigt hydratiserat och hade en låg andel mucin i direkt kontakt med ytan. Vi påvisade vikten av att noga undersöka mucinet som användes, eftersom olika renhet, till exempel i form av förekomsten av albumin gav upphov till olika adsorptionsbeteende gällande både adsorberad mängd och struktur. En stor andel av det adsorberade mucinlagret desorberade när det exponerades för den anjoniska tensiden natriumdodecylsulfat, SDS. Vi visade att ett skyddande lager av den katjoniska polysackariden chitosan kunde adsorberas på mucinet och att mucin-chitosan-komplexen inte desorberade när SDS tillsattes. Därtill studerades växelverkan mellan chitosan och SDS på gränsytan vätska-fast fas, i bulken och på luft-vattengränsytan. Komplex av chitosan-SDS bildades i samtliga miljöer och en nettoladdningsomsvängning från positiv till negativ observerades när koncentrationen av SDS ökades.Vidare kunde LbL-tekniken nyttjas för att skapa ett multilagerlikt skikt genom att alternerande adsorbera mucin och chitosan på kiseldioxidsubstrat. Denna teknik användes även med två proteiner, lysozym och β-kasein, med målet att skapa ett multilager bestående av endast proteiner. Dessa proteiner bildade komplex på gränsytan vätska-fast fas i form av ett blandat proteinlager, men uppbyggnaden var väldigt oregelbunden med en ökning i adsorberad mängd per proteindeponeringscykel som var avsevärt mindre än ett monolager.Inom området för biomaterial utgör de antibakteriella och antihäftande egenskaperna hos chitosan respektive heparin en lovande blandning för beläggningar av medicinska implantat. Baserat på detta konstruerade vi multilagerfilmer av chitosan och heparin med olika deponeringslösningar och undersökte dynamiken och filmens struktur i detalj. Chitosan-heparin-filmen var starkt hydratiserad, bestående av cirka 60-80 vikt-% vatten beroende på deponeringsbetingelserna. Den adsorberade mängden och tjockleken på filmen ökade nästan exponentiellt med antal deponeringar, vilket förklarades med chitosanets förmåga att diffundera genom filmen under uppbyggnaden. Med ett nytt angreppssätt använde vi FRET för att bevisa diffusionen av fluorescerande färgmärkt chitosan i filmen under uppbyggnaden. Diffusionskoefficienten var i princip oberoende av pH och jonstyrka under deponeringen och följaktligen av filmens struktur. Genom att använda ett pH-känsligt färgämne begravt under sju biskikt av chitosan-heparin visade vi att färgämnet i hög grad påverkades av laddningen på det yttersta lagret. Från QCM-D-data lade vi fram teorin om att en ökning av energidissipationen för ett lager inte nödvändigtvis indikerar att lagrets struktur har blivit mindre styvt. / QC 20100729
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Study of Surface Pre-treatments for AuSi Wafer-Level Eutectic Bonding : An investigation of the impact of different native oxide etching methods and storage times before AuSi eutectic bonding / En studie av förbehandlingar för eutektisk AuSi-bonding av kiselskivor : En undersökning av hur olika nativoxidmetoder och förvaringstider påverkar eutektisk AuSi-bondning.Boström, Gabriel January 2022 (has links)
Wafer bonding is important in microelectromechanical systems (MEMS) manufacturing, enabling wafer-level encapsulation and packaging. In this project, different pre-treatments of the polycrystalline silicon surface for eutectic gold-silicon (AuSi) bonding were studied with respect to the resulting bond strength. Native oxides or other surface layers can decrease the interaction between Au and Si, leading to weaker bonds. Different etching methods were investigated to remove native oxide. Spectroscopic ellipsometry (SE), water contact angle measurements and Fourier transform infrared spectroscopy (FTIR) were used to analyze the surfaces. SE measurements showed that the oxide layer grew 5 Å the first 4 hours after HF etch, rinse and dry, but then grew less than this during the following 6 weeks. The measured oxide growth was similar for wafers with other pre-treatments. Through contact angle measurements, it was demonstrated that the different etching methods resulted in different outermost surface layers. None of the contact angles were changed much over several weeks, indicating subsequent oxide growth occurred below a stable outermost layer. For wafer bonding, wafers with bond frame structures were used. After wafer bonding, the bond frames were analyzed with infrared (IR) microscopy and the bonds were shear tested for bond strength. The shorter the exposure time to ambient air atmosphere before bond, the stronger the bond in general. Furthermore, the wafers stored in nitrogen atmosphere exhibited higher bond strengths than the wafers stored in air for the same amount of time, confirming that the growing oxide was the reason for the decreased bond quality during wafer storage. HF (wet/vapor) etched wafers in general had slightly stronger bonds than the other wafers and the wafers etched with HF vapor had the highest average bond strength of all. The IR images showed that white areas in the bond frames were related to decreased bond strength, and that wafers that had longer storage time on average had more white in the bond frames. As a conclusion, to achieve as strong bonds as possible, the waiting time between wafer pre-treatments and bonding should be minimized, and in the waiting time it is beneficial to store the wafers in nitrogen atmosphere. In this study most wafers stored 2 weeks in nitrogen had good bond quality and even wafers stored 3 days in air had acceptable bond strengths. However, using HF to etch away the oxide before bond is preferable compared to the other etching methods, not only to have larger average bond strength, but also to have less bond strength decrease during waiting time before bond. / I tillverkning av mikroelektromekaniska system (MEMS) är skivbondning viktigt för inkapsling och förpackning av mikrosystem på skivnivå. I detta projekt studerades olika förbehandlingar av polykristallina kiselytan, inför eutektisk AuSi-bondning, med avseende på resulterande bondstyrka. Nativoxid eller andra ytskikt kan minska interaktionen mellan guld (Au) och kisel (Si), vilket leder till svagare bond. Flera olika etsmetoder undersöktes för att ta bort nativoxid. Spektroskopisk ellipsometri (SE), mätningar av vattenkontaktvinkel och Fouriertransform infraröd spektroskopi (FTIR), användes för att analysera ytorna. Resultaten från SE-mätningarna visade att oxiden växte 5 Å under de 4 första timmarna efter HF-ets, skölj och tork, men växte sedan mindre än detta under de följande 6 veckorna. Den uppmätta oxidtillväxten var liknande för skivorna med andra förbehandlingar. Kontaktvinklarna var olika för olika förbehandlingsmetoder, vilket visar att de hade olika yttersta ytskikt. Ingen av kontaktvinklarna ändrades mycket under flera veckor, vilket indikerar att den följande oxidtillväxten skedde under ett stabilt yttersta lager. För skivbondning andvändes skivor med bondramar längs chip-kanterna. Dessa bondramar var gjorda av polykristallint Si respektive Au på skivorna som skulle bondas. Efter bondning analyserades bondramarna med infraröd (IR) mikroskopi och skjuvtester gjordes för att bestämma bondstyrkan. Ju kortare tid skivorna exponerades till omgivande luft, desto starkare bond i allmänhet. Dessutom uppvisade skivorna som lagrats i kväveatmosfär högre bondstyrkor än de skivor som lagrats i luft, vilket bekräftar att den växande oxiden var orsaken till den minskade bondkvaliteten under skivlagring. HF-etsade skivor (HF- dipp och HF-ånga) hade något starkare bond än de andra skivorna och de skivor som etsats med HF-ånga hade allra högst genomsnittlig bondstyrka. IR-bilderna visade att vita områden i bondramarna var relaterat till minskad bondstyrka och att skivor som hade längre lagringstid i genomsnitt hade mer vitt i bondramarna. Slutsatsen är att för att uppnå så hög bondstyrka som möjligt ska tiden mellan förbehandlingar och bond minmeras, och under väntetiden är det till fördel att skivorna förvaras i kväveatmosfär. I den här studien hade skivor som förvarats 2 veckor i kväve bra bondkvalitet och även skivor som stått 3 dagar i luft hade godtagbara bondstyrkor. Att använda HF för att etsa bort oxid är dock bättre än att använda någon av de andra etsmetoderna, inte bara för att få högre genomsnittliga bondstyrkor, utan också för att få mindre minskning av bondstyrkan under väntetiden inför bondning.
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