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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Sintering Additives For Nanocrystalline Titania And Processing Of Porous Bone Tissue Engineering Scaffolds

Menon, Arun 01 January 2009 (has links)
Titania (Titanium dioxide, TiO2) has been researched as a promising biomaterial due to its excellent biocompatibility. However, the main limitation of titania is its poor mechanical properties which limit its use in many load-bearing applications. In this thesis report, the properties of titania were improved by doping with small quantities of MgO, ZnO and SiO2 as sintering additives. Nanocrystalline powder was selected, as it possesses outstanding properties over conventional coarse-grained powders due to reduced grain size. Nanocrystalline anatase powder of size 5-15 nm was synthesized via a simple sol-gel technique. Small quantities of dopants were introduced into pure titania powder, through homogeneous mixing. The doped powder compositions were compacted uniaxially and sintered at 1300°C and 1500°C, separately, in air. The effects of sintering cycle and temperature on the microstructure, densification and mechanical properties of the sintered structures were studied. Mg doped structures recorded maximum sintered density of 3.87 g.cm-3. Phase analysis was carried out using powder XRD technique using Cu K[alpha] radiation. Microstructural analysis was performed using Scanning electron microscopy. The mechanical properties were assessed by evaluating hardness and biaxial flexural strength (ASTM F-394) of the structures. Results showed 12% increase in hardness and 18% increase in biaxial flexural strength in structures doped with ZnO and SiO2, respectively. Further, simulated body fluid maintained at 36.5°C was used to study the bioactivity and degradation behavior of the structures. The second part of the work aimed in the processing of porous titania scaffolds using polyethylene glycol as the pore-former. The green structures were sintered at 1400°C and 1500°C, separately in air and their properties have been studied. Microstructural analysis was carried out using Scanning electron microscope (SEM). Porosity was evaluated using the immersion technique. Vickers hardness and biaxial flexural tests were used to carry out the mechanical characterization. Further, the biomechanical/biodegradation behavior of the structures was assessed in simulated body fluid (SBF). Biodegradation and change in biomechanical properties as a function of time were studied in terms of weight change, change in Vickers hardness and biaxial flexural strength. The mechanical properties of porous titania scaffolds doped separately with MgO and ZnO have also been studied to investigate the influence of these additives on the properties of porous structures. The Vickers hardness and biaxial flexural strength were seen to improve with the addition of these sintering additives.
2

NANOSTRUCTURED THIN FILMS AND TUBES OF TITANIA FOR ROOM TEMPERATURE SENSING OF GASES

Kandala, Satish Kumar 01 January 2008 (has links)
The main objective of this work was to study the applicability of Nano porous/Nanocrystalline TiO2 films for serving the growing demand for fast accurate and low cost air quality analysis techniques. The sensitivity of response to variations in microstructure pointed the way to obtain controlled, reproducible and regular microstructures with critical dimensions proportionate with the Debye- length of the oxide. This work aimed to study the sensor properties of thin films of Nanocrystalline Titania and Titania nanotubes at room temperature. Nano porous/Nanocrystalline TiO2 films were fabricated through evaporation driven convection/sol-gel method by controlling the process conditions. We also fabricated ordered TiO2 nanotube arrays by carefully controlling the anodization conditions. TiO2 nanotube arrays were fabricated through potentiostatic anodization of a Ti metal sheet in various electrolyte mediums. The electrolyte mediums consisted of mixtures of acids ranging from HF, HCl, HNO3, H2SO4, H3PO4 and CH3COOH and polar organic solvents like C2H6OS(DMSO) and C2H4(OH)2(Ethylene Glycol) . Well ordered films consisting of TiO2 nanotube arrays (25 μm to 250 μm in length) were obtained. Contacts were deposited on to the annealed samples. Capacitive gas sensors were fabricated and their response to ammonia gas was evaluated.
3

Σύνθεση νανοκρυσταλλικών ημιαγώγιμων οξειδίων, χαρακτηρισμός και μελέτη των εφαρμογών τους στη φωτοκαταλυτική και φωτοηλεκτροχημική διάσπαση του ύδατος

Στρατάκη, Νικολέτα 20 October 2009 (has links)
Η φωτοκαταλυτική παραγωγή H2 μέσω διεργασιών φωτοκαταλυτικής αναμόρφωσης, μελετήθηκε με χρήση νανοκρυσταλλικών υμενίων TiO2 εμπλουτισμένων με εναποτεθειμένα μέταλλα στην επιφάνειά τους. Το TiO2 παρασκευάστηκε με τη μέθοδο sol-gel παρουσία οξικού οξέος και ενός επιφανειακώς δραστικού μορίου, του Triton X-100. Τα υμένια που παρασκευάστηκαν ήταν κρυσταλλικής μορφής ανατάση, με μέσο μέγεθος των σωματιδίων 12 nm, αρκετά σημαντικές υδροφιλικές ιδιότητες και υψηλή προσροφητική ικανότητα, ενώ είναι και πολύ ικανοί φωτοκαταλύτες για την αντίδραση διάσπασης των προσροφημένων χρωστικών στην επιφάνειά τους. Η μελέτη της αντίδρασης παραγωγής H2 πραγματοποιήθηκε με χρήση του φωτοκαταλύτη Pt/TiO2, αφού ο Pt αύξησε τη φωτοκαταλυτική ενεργότητα του υλικού και τη φωτοκαταλυτική απόδοση της αντίδρασης περισσότερο από τα υπόλοιπα μέταλλα. Οι βέλτιστες συνθήκες εναπόθεσης του Pt, ήταν η προσρόφησή του για 30 min από υδατικά διαλύματα Na2PtCl4 συγκέντρωσης 5*10-4 Μ και φωτοβόληση του υλικού για 15 min ώστε να πραγματοποιηθεί η αναγωγή. Η χρήση αυτού του φωτοκαταλύτη έδωσε σημαντικά αποτελέσματα φωτοκαταλυτικής αποικοδόμησης αλκοολών και άλλων προϊόντων βιομάζας σε υδατικά διαλύματα. Από τις ενώσεις που μελετήθηκαν, η χρήση της αιθανόλης και της γλυκερόλης οδήγησε στη μεγαλύτερη αύξηση του ρυθμού φωτοκαταλυτικής παραγωγής H2. Η αντίδραση της φωτοκαταλυτικής αναμόρφωσης πραγματοποιήθηκε κυρίως με χρήση υπεριώδους ακτινοβολίας UVA (Black light, ~360 nm), παρουσία ενώσεων με γενικό χημικό τύπο CxHyOz. Κυριότερες κατηγορίες αυτών των ενώσεων είναι οι αλκοόλες, τα σάκχαρα, οι πολυόλες και τα οργανικά οξέα. Επίσης, τα φωτοκαταλυτικά υμένια Pt/TiO2 είναι ικανά να προκαλέσουν την φωτοκαταλυτική παραγωγή H2 μέσα από μικρογαλακτώματα διασποράς ελαίου σε νερό. Η συνολική διεργασία της φωτοκαταλυτικής αναμόρφωσης αποτελεί μια ιδιαίτερα ελκυστική διεργασία, η οποία πραγματοποιείται με αρκετά ικανοποιητική απόδοση, με την κατάλληλη χρήση του φωτοκαταλύτη Pt/TiO2, σε μορφή λεπτών υμενίων. / Nanocrystalline titanium dioxide films, with deposited noble metals on their surface were studied for the photocatalytic production of Η2, through the so-called “photocatalytic reforming” processes. These films were deposited on glass substrates by using sol-gel procedures, carried out in the presence of acetic acid and a surfactant template, Triton X-100. The titania films consist of anatase nanocrystals, of about 12 nm average particle size. They were highly hydrophilic and were strong adsorbers of positively charged organic substances. Photodegradation of adsorbed dyes was very efficient on these titania nanoparticulate films. Photocatalytic hydrogen production was studied by using nanocrystalline films of Pt/TiO2. Pt gave the best results concerning photocatalytic activity of titanium dioxide. The best conditions of platinum deposition, through its adsorption from aqueous solutions, were 30 min of adsorption in the dark from an aqueous solution of Na2PtCl4, having a concentration of 5*10-4 M, followed by the reduction of the adsorbed ions of Pt (II) by UV treatment. Using this type of photocatalyst lead to high efficiency of photodegradation of alcohols and generally products, derived from biomass in aqueous solutions. From all the compounds examined, ethanol and glycerol gave the highest photocatalytic hydrogen production rates. The photocatalytic reforming reaction, was carried out using UVA (black light, ~360 nm) radiation, that comes from low-energy black light sources and was applied on chemical compounds that have the general chemical structure of CxHyOz. Several categories of substances may have this structure, such as alcohols, saccharides, polyols and organic acids. Also, photocatalytic nanocrystalline films Pt/TiO2 led to substantially efficient process of hydrogen production, by using colloidal dispersions of oil-in-water microemulsion. The whole process of photocatalytic reforming of several substances can be a very attractive and very promising process, by employing nanocrystalline titania films, Pt/TiO2.

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