Global ETD Search

571	CVD and ALD in the Bi-Ti-O system Schuisky, Mikael January 2000 (has links) <p>Bismuth titanate Bi<sub>4</sub>Ti<sub>3</sub>O<sub>12</sub>, is one of the bismuth based layered ferroelectric materials that is a candidate for replacing the lead based ferroelectric materials in for instance non-volatile ferroelectric random access memories (FRAM). This is due to the fact that the bismuth based ferroelectrics consists of pseudo perovskite units sandwiched in between bismuth oxide layers, which gives them a better fatigue nature.</p><p>In this thesis thin films of Bi<sub>4</sub>Ti<sub>3</sub>O<sub>12 </sub>have been deposited by chemical vapour deposition (CVD) using the metal iodides, BiI<sub>3</sub> and TiI<sub>4</sub> as precursors. Films grown on MgO(001) substrates were found to grow epitaxially. The electrical properties were determined for films grown on Pt-coated silicon and good properties such as a high dielectric constant (ε) of 200, low <i>tan</i> δ of 0.018, a remnant polarisation (<i>P</i><sub>r</sub>) of 5.3 μC/cm<sup>2</sup> and coercive field (E<sub>c</sub>) as high as 150 kV/cm were obtained. Thin films in the Bi-Ti-O system were also deposited by atomic layer deposition (ALD) using metalorganic precursors.</p><p>In addition to the ternary bismuth titanates, films in the binary oxide systems <i>i.e.</i> bismuth oxides and titanium oxides were deposited. Epitaxial TiO<sub>2</sub> films were deposited both by CVD and ALD using TiI<sub>4</sub> as precursor. The rutile films deposited by ALD were found to grow epitaxially down to a temperature of at least 375 ¢ªC on α-A1<sub>2</sub>O<sub>3</sub>(0 1 2) substrates. The TiO<sub>2</sub> ALD process was also studied <i>in-situ</i> by QCM. Different bismuth oxides were deposited by halide-CVD using BiI<sub>3</sub> as precursor on MgO(0 0 1) and SrTiO<sub>3</sub>(0 0 1) substrates and the results were summarised in an experimental CVD stability diagram. The Bi<sub>2</sub>O<sub>2.33</sub> phase was found to grow epitaxially on both substrates.</p> Chemistry Halide-CVD ALD Bismuth titanate Bi4Ti3O12 Titanium oxide TiO2 Bismuthoxide Bi2O2.33 Epitaxy QCM. Kemi Chemistry Kemi
572	CVD and ALD in the Bi-Ti-O system Schuisky, Mikael January 2000 (has links) Bismuth titanate Bi4Ti3O12, is one of the bismuth based layered ferroelectric materials that is a candidate for replacing the lead based ferroelectric materials in for instance non-volatile ferroelectric random access memories (FRAM). This is due to the fact that the bismuth based ferroelectrics consists of pseudo perovskite units sandwiched in between bismuth oxide layers, which gives them a better fatigue nature. In this thesis thin films of Bi4Ti3O12 have been deposited by chemical vapour deposition (CVD) using the metal iodides, BiI3 and TiI4 as precursors. Films grown on MgO(001) substrates were found to grow epitaxially. The electrical properties were determined for films grown on Pt-coated silicon and good properties such as a high dielectric constant (ε) of 200, low tan δ of 0.018, a remnant polarisation (Pr) of 5.3 μC/cm2 and coercive field (Ec) as high as 150 kV/cm were obtained. Thin films in the Bi-Ti-O system were also deposited by atomic layer deposition (ALD) using metalorganic precursors. In addition to the ternary bismuth titanates, films in the binary oxide systems i.e. bismuth oxides and titanium oxides were deposited. Epitaxial TiO2 films were deposited both by CVD and ALD using TiI4 as precursor. The rutile films deposited by ALD were found to grow epitaxially down to a temperature of at least 375 ¢ªC on α-A12O3(0 1 2) substrates. The TiO2 ALD process was also studied in-situ by QCM. Different bismuth oxides were deposited by halide-CVD using BiI3 as precursor on MgO(0 0 1) and SrTiO3(0 0 1) substrates and the results were summarised in an experimental CVD stability diagram. The Bi2O2.33 phase was found to grow epitaxially on both substrates. Chemistry Halide-CVD ALD Bismuth titanate Bi4Ti3O12 Titanium oxide TiO2 Bismuthoxide Bi2O2.33 Epitaxy QCM. Kemi Chemistry Kemi
573	Electronic and Molecular Surface Structures of Dye-Sensitized TiO2 Interfaces Hahlin, Maria January 2010 (has links) The dye-sensitized solar cell is a promising solar cell technology. In these systems the key process for light to electricity conversion is molecular in nature and is initiated in dye molecules adsorbed at a semiconducting surface. This thesis focuses on the electronic and molecular surface structure of the dye/TiO2 interface, and the experimental results were obtained from surface sensitive X-ray based electron spectroscopic methods. Two families of dyes, triarylamine based organic dyes and ruthenium based inorganic dyes, were investigated. The effect of dye structural modications on the interfacial properties was studied, such as the surface concentrations, dye molecular surface orientation, molecular interactions, and energy level matching. Also, the impact of additional parameters such as the incorporation of coadsorbents and the solvents used for dye sensitization were studied and complementary photoelectrochemical characterization was used to demonstrate functional properties corresponding to changes in the molecular layers. The experiments provided information on how specic structural modications change the frontier electronic structure. The results also showed that the adsorption of the organic dye leads to submolecular electronic changes, and that the dye surface orientations in general favor effcient energy conversion. Moreover, effects of solvents and coadsorbents, on both energy level matching between the dye and the TiO2 substrate and the surfacemolecular structure were quantied. Photoelectron spectroscopy Electron spectroscopy Solar Cells Dye TiO2 Surface Interface Electronic structure Molecular surface structure coadsorbent Physics Fysik
574	Génération in situ de dioxyde de titane par réactions d'hydrolysecondensations dans une matrice polymère fondu Bahloul, Walid 20 July 2010 (has links) (PDF) L'objectif de ce travail est de générer in situ des particules de dioxyde de titane dans une matrice polypropylène fondu au cours du procédé d'extrusion. La synthèse est basée sur des réactions d'hydrolyse-condensations d'un alkoxyde de titane (le n-tétrabutoxyde de titane). Une approche en milieu modèle a tout d'abord été développée offrant l'avantage de pouvoir travailler en milieu liquide sans prendre en compte de la viscosité du PP ni des effets de cisaillement. En se basant sur les données cinétiques déterminées en milieu modèle, la génération de ces particules de dioxyde titane a été ensuite transposée et modélisée dans le milieu polymère de masse molaire plus élevée. Les analyses chimique, structurale et morphologique ont permis de mettre au point l'élaboration in situ de nanocomposites PP/TiO2 présentant unestructure fractale avec des propriétés viscoélastiques particulières. Enfin l'étude des propriétés bactérienne de ce nanocomposite a mis en avant son pouvoir bactéricide (6Log) pour un taux de charge de 9 % massique. [CHIM:OTHE] Chemical Sciences/Other Polypropylène Dioxyde de titane Génération in situ Hydrolyse-condensation Sol-gel Nanocomposites PP/TiO2 Extrusion réactive Propriétés antibactériennes
575	Quantum Chemical Investigations of Phenol and Larger Aromatic Molecules on TiO2 Surface Karlsson, Maria January 2004 (has links) Adsorption of organic molecules at a surface of titanium dioxide (101) anatase is studied using quantum-chemical density functional theory. Anatase can be used in solar cells. For the clean anatase surface the band gap is so large that only UV-light can excite electrons. Different groups with conjugated systems are attached to obtain a more suitable band gap. Phenol was attached in different positions to a cluster of anatase and geometry optimized using the B3LYP-functional. The geometry that was energetically most favorable was used to put in phenylmethanol, phenylethanol, naphthol, 2-phenanthrol, 1-pyrol and 2-perylol. To give a more realistic model of phenol at anatase, a study of a two- dimensional periodic anatase surface was also made. Molecular orbitals were calculated to study the overlap between HOMO and LUMO orbitals. The calculation shows that phenol will remain as a molecule and will not dissociate. The band gap gets smaller when molecules are attached at the cluster and with 2-perylol it reaches the energy of visible light. The molecular orbitals for HOMO, LUMO and LUMO of the adsorbed molecule were investigated. HOMO was localized at the molecule, LUMO at the cluster and LUMO of the adsorbed molecule move closer to the energy of LUMO when the number of rings increases. Physical chemistry Adsorption geometries Anatase Band gap Phenol Solar cells TiO2 Fysikalisk kemi Physical chemistry Fysikalisk kemi
576	Photocatalytic Activity In Nano Sized Titanium Dioxide Structures Oymak, Mert Mehmet 01 February 2013 (has links) (PDF) The objective of this thesis is to investigate the photocatalytic activity in nanosized TiO2 structures. Two different structures were used for two different reaction systems. In the first part of the study, TiO2 coated on glass beads by a sol-gel procedure were used to test the photocatalytic CO2 reduction reaction with H2O and H2 in the gas phase. The results of photocatalytic CO2 reduction reaction revealed that CO2 reduction step of the overall reaction proceeds in dark / while illumination is required for water splitting reaction. In the second part of the study, Photocatalytic oxidation activity of the commercial TiO2 powders mixed with grout and plaster were studied for a potential commercial self cleaning material. A method based on gas phase benzene oxidation was developed for testing TiO2 added cement based self cleaning surfaces. This method was used to screen 15 commercial TiO2 samples with and without cement. Based on this method a commercial TiO2 sample (S9) was selected for further use. Surface of 15 commercial TiO2 samples were characterized by using NO and CO2 as probe molecules. Photocatalytic benzene oxidation experiments showed that using TiO2 on the surface lead to more effective surfaces in terms of photocatalytic activity. TiO2 was bound to surface by inorganic materials without much activity loss. This kind of amount optimization is of commercial importance. TP Chemical Engineering 155-156
577	Estudis teòrics de clusters, superfícies i cristalls d'òxids metàl.lics. Propietats estructurals, electròniques i catalítiques Calatayud Antonino, Monica 27 June 2001 (has links) La present tesi doctoral tracta la modelitzacio de diferents estats de la materia: clusters o agregats, superficies i cristalls d'oxids metal.lics. Els metodes disponibles per abordar cada sistema han estat breument descrits, per justificar la seua utilitzacio en diverses aplicacions a materials. Primer, s'han proposat geometries per als agregats de V2O5 cations i neutres en fase gas, i s'han caracteritzat els estats electronics, estructura, espectre de vibracio i enllac quimic. Segon, s'han simulat superficies d'oxids metal.lics i processos d'adsorcio de molecules o atoms metal.lics: CH3OH i O2 sobre SnO2, Cu sobre ZnO. La interaccio adsorbat-superficie te lloc per un mecanisme acid/base, i s'ha caracteritzat la geometria i energia de cada supersistema (mode d'adsorcio, paper dels defectes de superficie). Finalment, s'ha estudiat el cristall de TiO2 en fase anatasa des de multiples punts de vista: descripcio de l'estructura en poliedres, estructura electronica (bandes i densitat d'estats), termodinamic (equacio d'estat) i d'enllac quimic ("Atoms In Molecules"). Les superficies mes estables han estat construides i els efectes de relaxacio avaluats. adsorcio O2 CH3OH ZnO SnO2 TiO2 V2O5 ELF DFT estat solid gas-phase cluster catalisi quimica fisica 538.9 544 546
578	Application Of Semi Conductor Films Over Glass/ceramic Surfaces And Their Low Temperature Photocatalytic Activity Ersoz, Tugce Irfan 01 February 2009 (has links) (PDF) Semiconductor metal oxides can be induced by light with proper wavelength resulting in oxidation and reduction reactions for the transformation of water and oxygen molecules into active radicals. With this method, it is possible to obtain self-cleaning surfaces and products having antimicrobial properties. The aim of this study is to develop semiconductor metal oxide thin films for multifunctional glass products and the characterization of photocatalytic self cleaning and antimicrobial properties. As semiconductor metal oxides / titanium dioxide (TiO2), tin oxide (SnO2) and their binary mixtures (TiO2-SnO2) are selected because of their abundancy, non toxic properties, stability and the ability of absorbing light close to visible range. Also the effect of metal dopants such as praseodymium (Pr), palladium (Pd), silver (Ag) and iron (Fe) was examined with these metal oxides. The colloidal solutions were synthesized by using sol-gel method in order to apply the developed method to industrial usage as applying on large surfaces. The glass substrates were coated with the colloidal solutions by dip coating and the dried samples were calcined under air flow. The best calcination condition for pure TiO2 coated thin film was determined as 400oC for 45 minutes. Surface characterization studies were performed by using UV-Visible Spectrophotometer for band gap measurement, CAM for contact angle measurement, SEM for surface morphology and tophology. The methylene blue adsorption tests were carried out and the effective surface area of the samples were predicted by the Langmuir adsorption isotherm of samples. The photocatalytic activities of the coated thin films were measured with the degradation of organic materials as red wine and methylene blue, and with the antimicrobial activity tests as counting the number of viable E.coli cells. 61.2% deactivation of methylene blue stain was achieved over SnO2 coated thin films while this was 22.1% over TiO2 coated thin films after irradiation for 180 minutes. The superior photocatalytic activity was observed with TiO2 samples doped with Pd and Ag ions. The TiO2-SnO2 coated samples performed limited photocatalytic activity which is less than the activity of SnO2 coated samples which was confirmed with surface area measurements as SnO2 coated samples had higher surface area (9.81 cm2/cm2) than TiO2-SnO2 coated samples. Surface area increased with increasing the amount of SnO2 and it was in the following order: SnO2 &gt / 80% SnO2 + 20% TiO2 &gt / 50% SnO2 + 50%TiO2 &gt / 35% SnO2 + 65%TiO2 &gt / 20% SnO2 + 80% TiO2 &gt / TiO2. TP Chemical Engineering 155-156
579	Decomposition of Acetone by Nano-sized Photocatalysts Coated on Activated Carbon Cellulose-paper Filter Peng, Yi-wei 27 August 2008 (has links) This study combined photocatalytic technology with activated carbon cellulose-paper filter (ACCF) adsorption to decompose gaseous pollutants. Gaseous pollutants were initially adsorbed by activated carbon and could be further decomposed by photocatalytic technology. This study selected acetone (CH3COCH3) as gaseous pollutants. Two market available photocatalysts (photocatalysts¢¹and¢º) were coated on ACCF by impregnation to decompose acetone in a batch photocatlytic reactor. Operating parameters investigated in this study included initial acetone concentration (4.1~10.2 £gM), reaction temperature (40~70¢J), and water vapor (0~20 %). The incident UV light of 365 nm was irradiated by a 20-watt low-pressure mercury lamp placing above the batch photocatalytic reactor. The ACCF coated with TiO2 was placed at the center of the photocatalytic reactor. Acetone was injected into the reactor by a gasket syringe to conduct the photocatalytic tests. Reactants and products were analyzed quantitatively by a gas chromatography with an electron capture detector (GC/DCD) and a flame ionization detector followed by a methaneizer (GC/FID-Methaneizer). Finally, a Langmiur-Hinshewood (L-H) kinetic model was proposed to describe the rate of photocatalytic reaction. Results obtained from the photocatalytic tests indicated that photocatalyst¢º was better than photocatalyst¢¹ for the decomposition of acetone. Experimental results indicated that the size range of self-produced TiO2 photocatalyst by sol-gel was 20~70 nm. The end products were mainly CO and CO2, which resulted in the mineralization ratio up to 98%. Results obtained from the operating parameter tests revealed that the increase of initial acetone concentration enhanced the amount of acetone adsorbed on ACCF, which however did not increase the reaction rate of acetone. Although the increase of reaction temperature could reduce the amount of acetone adsorbed on ACCF, the decomposition rate of acetone could be promoted, so as the yield rate and mineralization ratio of products (CO and CO2). The increase of water vapor could slightly decrease the amount of acetone adsorbed on ACCF. The competitive adsorption phenomenon between acetone and water molecules on active sites could decelerate the decomposion of acetone. Moreover, the ACCF would not be saturated since the adsorbed acetone could be further decomposed quickly by the photocatalysts, which made the TiO2/ACCF more effective on removing acetone and lasted longer than the conventional ACCF. Finally, a modified bimolecular Langmuir-Hinshelwood kinetic model was developed to investigate the influences of initial acetone concentration reaction, temperature, and relative humidity on the promotion and inhibition for the photocatalytic oxidation of acetone. The modified L-H kinetic model could successfully simulate the photocatalytic reaction rate of acetone. Thus, the reaction rate of acetone over TiO2/ACCF could be described by the modified L-H kinetic model. L-H kinetic model photocatalytic reaction operating parameters titanium dioxide (TiO2) photocatalyst acetone decomposition
580	Ανοδικά ηλεκτρόδια Pt-RuO2-TiO2 για την ηλεκτροχημική οξείδωση αλκοολών σε κυψελίδες καυσίμου χαμηλών θερμοκρασιών Καλαμαράς, Ευάγγελος 18 June 2014 (has links) Σε αυτή την μελέτη παρασκευάστηκαν ηλεκτρόδια Pt-RuO2-TiO2 και χαρακτηρίστηκαν με περίθλαση ακτίνων Χ (X-ray diffraction - XRD), φασματοσκοπία φωτοηλεκτρονίων από ακτίνες Χ (X-ray photoelectron spectroscopy - XPS), ηλεκτροχημικές τεχνικές και πειράματα ρόφησης-οξείδωσης μονοξειδίου του άνθρακα (CO stripping). Ερευνήθηκε η μείωση της περιεκτικότητας σε Pt και RuO2 χωρίς απώλειες της ηλεκτροκαταλυτικής ενεργότητας. Το TiO2 επιλέχθηκε λόγω της χημικής του σταθερότητας και του χαμηλού κόστους. Βρέθηκε ότι περιεκτικότητα σε TiO2 μέχρι 50% οδηγεί σε αύξηση της ηλεκτροχημικά ενεργής επιφάνειας (EAS) του ηλεκτροδίου. Η ηλεκτροχημικά ενεργή επιφάνεια (EAS) του ηλεκτροδίου Pt(25%)-RuO2(25%)-TiO2(50%) ήταν μεγαλύτερη του ηλεκτροδίου Pt(50%)-RuO2(50%), ενώ για περιεκτικότητα σε TiO2 μεγαλύτερη από 65% η EAS μειώνεται δραματικά. Το παραπάνω συμπέρασμα στηρίχθηκε σε μετρήσεις του φορτίου της αναγωγικής κορυφής των κυκλικών βολταμογραφημάτων και σε πειράματα ρόφησης-οξείδωσης του CO (CO stripping). Όλα τα δείγματα χρησιμοποιήθηκαν και ως άνοδοι κατά τη διάρκεια ηλεκτροχημικής οξείδωσης μεθανόλης, αιθανόλης και γλυκερόλης. Και στις τρεις περιπτώσεις το ηλεκτρόδιο Pt(25%)-RuO2(25%)-TiO2(50%) παρουσίασε τη μεγαλύτερη ηλεκτροκαταλυτική ενεργότητα. Η παρατηρούμενη αυξημένη απόδοση των ηλεκτροδίων που παρασκευάστηκαν αποδόθηκε στην αυξημένη διασπορά της Pt και του RuO2, στο σχηματισμό μικρότερων κρυσταλλιτών Pt και RuO2 με την πρόσθεση TiO2, καθώς επίσης και σε ηλεκτρονιακές αλληλεπιδράσεις μεταξύ των μετάλλων και του TiO2. / In this study Pt-RuO2-TiO2 electrodes were prepared and characterised by X-ray Diffraction (XRD), X-ray Photoelectron Spectroscopy (XPS), electrochemical techniques and CO stripping. The minimization of the Pt and RuO2 loading without electrocatalytic activity losses was explored. TiO2 was chosen due to its chemical stability and low cost. It was found that TiO2 loading up to 50% resulted in an increase of the Electrochemically Active Surface (EAS). The EAS of Pt(25%)-RuO2(25%)-TiO2(50%) was higher than that of Pt(50%)-RuO2(50%) while for TiO2 loadings higher than 50% the EAS diminished. The above conclusion has been confirmed by following the charge of the platinum reduction peak on cyclic voltammograms and by CO stripping experiments. All samples were used as anodes during electrochemical oxidation of methanol, ethanol and glycerol. In all cases the Pt(25%)-RuO2(25%)-TiO2(50%) electrode exhibited better electrocatalytic activity than the Pt(50%)-RuO2(50%) anode. The observed higher performance of this electrode has been attributed to the enhanced dispersion of Pt and RuO2 particles, the formation of smaller crystallites of Pt and RuO2 by the addition of TiO2 and the electronic interactions between metals and TiO2. Ανοδικά ηλεκτρόδια 621.312 429 DAFC (Direct alcohol fuel cell) Pt-RuO2-TiO2

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