5 resultados para Fluorine

em Aston University Research Archive


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Suitable methods for the assessment of the effect of freeze-thaw action upon ceramic tiles have been determined. The results obtained have been shown to be reproducible with some work in this area still warranted. The analysis of Whichford Potteries clays via a variety of analytical techniques has shown them to be a complex mix of both clay and non-clay minerals. 57Fe Mössbauer spectroscopy has highlighted the presence of both small and large particleα-Fe203, removable via acid washing. 19F MAS NMR has demonstrated that the raw Whichford Pottery clays examined have negligible fluorine content. This is unlikely to be detrimental to ceramic wares during the heating process. A unique technique was used for the identification of fluorine in solid-state systems. The exchange of various cations into Wyoming Bentonite clay by microwave methodology did not show the appearance of five co-ordinate aluminium when examined by 27Al MAS NMR. The appearance of Qo silicate was linked to an increase in the amount of tetrahedrally bound aluminium in the silicate framework. This is formed as a result of the heating process. The analysis of two Chinese clays and two Chinese clay raw materials has highlighted a possible link between the two. These have also been shown to be a mix of both clay and non-clay minerals. Layered double hydroxides formed by conventional and microwave methods exhibited interesting characteristics. The main differences between the samples examined were not found to be solely attributable to the differences between microwave and conventional methods but more attributable to different experimental conditions used.

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Plasma or "dry" etching is an essential process for the production of modern microelectronic circuits. However, despite intensive research, many aspects of the etch process are not fully understood. The results of studies of the plasma etching of Si and Si02 in fluorine-containing discharges, and the complementary technique of plasma polymerisation are presented in this thesis. Optical emission spectroscopy with argon actinometry was used as the principle plasma diagnostic. Statistical experimental design was used to model and compare Si and Si02 etch rates in CF4 and SF6 discharges as a function of flow, pressure and power. Etch mechanisms m both systems, including the potential reduction of Si etch rates in CF4 due to fluorocarbon polymer formation, are discussed. Si etch rates in CF4 /SF6 mixtures were successfully accounted for by the models produced. Si etch rates in CF4/C2F6 and CHF3 as a function of the addition of oxygen-containing additives (02, N20 and CO2) are shown to be consistent with a simple competition between F, 0 and CFx species for Si surface sites. For the range of conditions studied, Si02 etch rates were not dependent on F-atom concentration, but the presence of fluorine was essential in order to achieve significant etch rates. The influence of a wide range of electrode materials on the etch rate of Si and Si02 in CF4 and CF4 /02 plasmas was studied. It was found that the Si etch rate in a CF4 plasma was considerably enhanced, relative to an anodised aluminium electrode, in the presence of soda glass or sodium or potassium "doped" quartz. The effect was even more pronounced in a CF4 /02 discharge. In the latter system lead and copper electrodes also enhanced the Si etch rate. These results could not be accounted for by a corresponding rise in atomic fluorine concentration. Three possible etch enhancement mechanisms are discussed. Fluorocarbon polymer deposition was studied, both because of its relevance to etch mechanisms and its intrinsic interest, as a function of fluorocarbon source gas (CF4, C2F6, C3F8 and CHF3), process time, RF power and percentage hydrogen addition. Gas phase concentrations of F, H and CF2 were measured by optical emission spectroscopy, and the resultant polymer structure determined by X-ray photoelectron spectroscopy and infrared spectroscopy. Thermal and electrical properties were measured also. Hydrogen additions are shown to have a dominant role in determining deposition rate and polymer composition. A qualitative description of the polymer growth mechanism is presented which accounts for both changes in growth rate and structure, and leads to an empirical deposition rate model.

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Tuberculosis (TB), an infection caused by human pathogen Mycobacterium tuberculosis, continues to kill millions each year and is as prevalent as it was in the pre-antimicrobial era. With the emergence of continuously-evolving multi-drug resistant strains (MDR) and the implications of the HIV epidemic, it is crucial that new drugs with better efficacy and affordable cost are developed to treat TB. With this in mind, the first part of this thesis discusses the synthesis of libraries of derivatives of pyridine carboxamidrazones, along with cyclised (1,2,4-triazole and 1,2,4-oxadiazole) and fluorinated analogues. Microbiological screening against M. tuberculosis was carried out at the TAACF, NIAID and IDRI (USA). This confirmed the earlier findings that 2-pyridyl-substituted carboxamidrazones were more active than the 4-pyridyl-substituted carboxamidrazones. Another important observation was that upon cyclisation of these carboxamidrazones, a small number of the triazoles retained their activity while in most of the remaining compounds the activity was diminished. This might be attributed to the significant increase in logP value caused by cyclisation of these linear carboxamidrazones, resulting in high lipophilicity and decreased permeability. Another reason might be that the rigidity conferred upon the compound due to cyclisation, results in failure of the compound to fit into the active site of the putative target enzyme. In order to investigate the potential change to the compounds’ metabolism in the organism and/or host, the most active compounds were selected and a fluorine atom was introduced in the pyridine ring. The microbiological results shows a drastic improvement in the activity of the fluorinated carboxamidrazone amides as compared to their non fluorinated counterpart. This improvement in the activity could possibly be the result of the increased cell permeability caused by the fluorine. In a subsidiary strand, a selection of long-chain , -unsaturated carboxylic esters, -keto, -hydroxy carboxylic esters and -keto, -hydroxy carboxylic esters, structurally similar to mycolic acids, were synthesised. The microbiological data revealed that one of the open chain compound was active against the Mycobacterium tuberculosis H37Rv strain and some resistant isolates. The possible compound activity could be its potential to disrupt mycobacterial cell wall synthesis by interfering with the FAS-II pathway.

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The successful design of polymers for contact lens applications depends on the ability to provide a balance of properties appropriate to the ocular environment. Principal relevant aspects of the anterior eye are the tear film, eyelid and cornea, which govern the requirements for surface properties, modulus and oxygen permeability, respectively. Permeability requirements and the developing view of the needs of the cornea, in terms of oxygen consumption and the particular roles of fluorine and silicon in the design of silicone hydrogels, which have proved to be the most successful family of materials for this demanding application, are discussed. The contact lens field is complicated by the fact that contact lenses are used in a range of wear modalities, the extremes of which can conveniently be classified as lenses that are disposed of at the end of a single period of daily wear and those used for 30. days of successive day-and-night periods, frequently referred to as extended or continuous wear. As silicone hydrogels developed, in the decade following their launch there has been a progressive trend in properties taking both modulus and water content closer to those of conventional hydrogels. This is particularly evident in the family of daily disposable contact lenses that have appeared since 2008.