Global ETD Search

601	HFIP as a metal-free alternative for cyclization and oxidation reactions Llopis, Natalia 12 April 2022 (has links) En la presente tesis se desarrolla el empleo de alcoholes fluorados, en concreto, el hexafluoroisopropano, como disolventes para el desarrollo de metodologías alternativas para las reacciones de oxidación y ciclación. De este modo, en el primer capítulo, síntesis de tetrahidrofuradons substituidos mediante la apertura cíclica de epóxidos con alquenos ricos en electrones promovida por HFIP, se ha desarrollado un método directo para la síntesis de tetrahidrofuranos a través de la adición de alquenos ricos en electrones a epóxidos empleando alcoholes fluorados, en particular el 1,1,1,3,3,3-hexafluoroisopropanol (HFIP), como disolventes y promotores de la reacción. El procedimiento descrito da lugar a la obtención de nuevos espiro compuestos basados en tetrahidrofuranos, así como derivados de tetrahidrobenzofuranos en rendimientos moderados y bajo condiciones de reacción suaves siendo, de este modo, una metodología medioambientalmente benigna debido a su economía atómica y la disponibilidad de los reactivos. Por otro lado, en el segundo capítulo, oxidación de arenos ricos en electrones empleando sistemas HFIP-UHP, se ha descrito la oxidación directa de arenos ricos en electrones empleando el aducto de urea-peróxido de hidrógeno (UHP) como fuente oxidante y el 1,1,1,3,3,3-hexafluoroisopropanol (HFIP) como disolvente y promotor de la reacción. Así pues, se obtuvieron una gran variedad de quinonas en rendimientos de moderados a excelentes mediante un proceso de reacción considerado como sostenible, quedando de este modo demostrado que no es necesaria la utilización de metales para dar lugar al proceso oxidativo. Dentro del tercer capítulo, síntesis directa de N,N-formamidas disubstituidas mediante la oxidación de iminas empleando sistemas de HFIP-UHP, se describe la síntesis directa de formamidas N,N-disustituidas mediante la combinación de 1,1,1,3,3,3-hexafluoroisopropanol (HFIP) como disolvente y el aducto de urea-peróxido de hidrógeno (UHP) como fuente oxidante. Se obtuvieron de este modo una gran variedad de formamidas con unos rendimientos de buenos a excelentes bajo unas condiciones suaves de reacción, siendo también posible su síntesis a través de una secuencia de un paso. Este protocolo medioambientalmente benigno fue aplicado para la síntesis a gran escala de la N,N-difenilformamida. En el capítulo 4, ruptura oxidativa de indoles mediante el empleo de UHP o H2O2 en disolventes polares, se ha llevado a cabo la ruptura oxidativa de indoles, conocida como oxidación de Witkop, mediante el empleo de disolventes polares con una fuente oxidativa como el agua oxigenada o el aducto de urea-peróxido de hidrógeno (UHP). En efecto, el uso del HFIP, de entre los disolventes utilizados, fue seleccionado como el más recomendable para la obtención de las 2-cetoacetanilidas con altos rendimientos. Además de los indoles, este protocolo de reacción se amplió para la ruptura de los derivados de pirrol y furanos. Además, se demostró que dicho procedimiento era factible a mayor escala, pudiendo recuperar y reutilizar el disolvente hasta cuatro ciclos, dando lugar a una metodología sostenible. Finalmente, dentro del último capítulo que encontramos en la tesis, deshidrogenación de compuestos N-heterocíclicos empleando H2O2 y mediada por disolventes polares, se expone una deshidrogenación oxidativa alternativa de compuestos N-heterocíclicos mediada por una fuente oxidativa más verde, como es el agua oxigenada, en combinación con disolventes polares como el HFIP o el agua. Aunque se obtuvieron buenos resultados al emplear el agua como disolvente, se lograron alcanzar rendimientos más altos para los derivados heteroaromáticos cuando se utilizó el HFIP debido a la activación electrofílica del H2O2. Junto con la amplia gama de tetrahidroquinolinas seleccionadas, diferentes compuestos N-heterocíclicos como las tetrahidroisoquinolinas o las indolinas, también se llevaron a estudio obteniendo los correspondientes productos con bajos rendimientos. Además de esto, es importante señalar que le metodología descrita fue también implementada en gran escala, reciclando de este modo el disolvente hasta cinco veces con una ligera erosión en la conversión después de cada ciclo. Con ello, se han desarrollado metodologías alternativas donde se reduce el uso de metales como catalizadores o condiciones extremas de reacción, ya bien sea por las elevadas temperaturas o presiones. Por otro lado, se ha propuesto en todos los capítulos un mecanismo de reacción para cada uno de los procedimientos descritos, así como el reciclaje y reutilización de disolvente, o la síntesis a gran escala, demostrándose la aplicabilidad de los procesos y demostrando la sostenibilidad del proceso. Química Sostenible Oxidaciones 1,1,1,3,3,3-hexafluoroisopropanol Peróxido de hidrógeno Tetrahidrofuranos Arenos Alquenos Alcoholes Indoles Iminas Formamidas Quinolinas Epóxido Tetrahidroquinolinas Compuestos N- heterocíclicos Aducto urea-peróxido de hidrógeno Química Orgánica
602	Effects of Feeding High-Moisture Corn Grain with Slow-Release Urea in Dairy Diets on Lactational Performance, Energy and Nitrogen Utilization, and Ruminal Fermentation Profiles by Lactating Cows Tye, Braden M. 01 May 2016 (has links) The objective of this experiment was to determine if nutrient utilization and energy partitioning by lactating dairy cows would differ in response to dietary corn grain (CG) types [steam-flaked corn (SFC) vs. high-moisture corn (HMC)] and to test if the types of CG would interact with slow-release urea (SRU) on lactational performance and energy utilization. Eight multiparous Holstein cows (32 ± 8.2 days-in-milk) were used in a duplicated 4 × 4 Latin square with one square consisting of ruminally cannulated cows. A 2 × 2 factorial arrangement was used to test 4 dietary treatments: SFC without SRU, SFC with SRU, HMC without SRU, and HMC with SRU. The experimental diets contained 60.5% dry matter (DM) of forages, whereas 12.9% or 14.4% DM of SFC or HMC was added in the diets, respectively. The SRU was supplemented at 0.46% DM, replacing a mixture of soybean meal and canola meal in a 50:50 ratio. Feeding HMC decreased intakes of DM, crude protein, and fiber compared with SFC. Supplementation of SRU did not affect intakes of DM and nutrients, whereas it tended to increase intakes of DM or increased crude protein intake under SFC but no effect under HMC, leading to CG ×SRU interactions on DM and crude protein intakes. Neither type of CG nor SRU supplementation affected milk production except that cows fed HMC-based diets tended to decrease energy-corrected milk yield compared to those fed SFC-based diets. Utilization of HMC in the diet had a tendency to increase dairy efficiency based on milk yield over SFC utilization. Cows fed HMC diets gained more body weight (BW) than those fed SFC diets, whereas supplementing SRU tended to reduce BW gain regardless of type of CG. Cows fed HMC diets shifted more net energy into BW compared with those fed SFC diets, whereas supplementing SRU tended to decrease a portion of net energy partitioned into BW gain under both SFC and HMC diets. Dietary treatments exerted minor impacts on ruminal fermentation profiles. Feeding HMC diets decreased fecal N excretion compared with SFC diets. In addition, supplementing SRU increased fecal N excretion under SFC, but it was decreased by SRU with HMC, leading to an interaction between CG and SRU. These collective results demonstrate that feeding HMC with SRU can be a practical option in high-forage lactation diets to maintain or improve nutrient and energy utilization efficiency and minimize negative environmental impacts. effects feeding high moisture corn grain slow release urea dairy diets lactational performance energy nitrogen utilization ruminal fermentation profiles lactating cows Animal Sciences Nutrition
603	Élaboration d'élastomères silicones supramoléculaires auto-cicatrisants / Design of self-healing supramolecular silicone elastomers Fauvre, Lucile 13 December 2018 (has links) Ces travaux de thèse concernent l’étude de matériaux supramoléculaires en vue de générer de nouveaux élastomères silicones auto-cicatrisants. Dans un premier temps, l’étude de la bibliographie a permis de recenser les différentes voies intégrant de la chimie supramoléculaire développées dans le domaine des silicones et basées sur les liaisons hydrogène. L’effet des groupements associatifs sur les propriétés rhéologiques et mécaniques des matériaux a été discuté, et les limitations de ces systèmes soulignées. La chimie développée par l’équipe du Dr. Leibler, adaptée par la suite aux silicones par le Pr. Zhang et son équipe, a particulièrement été analysée lors de notre étude de compréhension. Les relations structures/propriétés n’étaient pas clairement élucidées à l’issue de cette étude de la bibliographie. Des études modèles impliquant un PDMS téléchélique aminé ainsi que de l’urée ont donc été réalisées. La caractérisation précise des structures des produits de réaction a permis de mettre en exergue certaines corrélations entre structures (choix du groupement associant, masse molaire du copolymère, fonctionnalité) et propriétés (rhéologiques et mécaniques) qui n’avaient alors pas été démontrées pour ces systèmes. Il a aussi été montré que la force des groupements et les enchevêtrements jouent un rôle primordial. Une chimie différente, inspirée des travaux de Yilgör et al sur les copolymères segmentés, a par la suite été envisagée, en mettant en jeu cette fois la réaction d’aza-Michael. Cette synthèse se démarque du premier système par un meilleur contrôle de la structure macromoléculaire finale. Un silicone supramoléculaire élastomère et auto-cicatrisant a été obtenu en combinant une fonctionnalité importante et une masse molaire finale élevée. Les propriétés mécaniques de ce polymère ont été optimisées par l’ajout de charges plus ou moins renforçantes. L’impact d’un tel renfort sur les propriétés auto-cicatrisantes du système a été discuté. / This PhD thesis focused on the investigation of supramolecular materials in order to generate new self-healing supramolecular silicone elastomers. Firstly, a literature review on silicone materials was realized and we identified the different ways developed in the silicone domain that imply supramolecular chemistry and in particular hydrogen-bonds. The influence of associating groups on rheological and mechanical properties of these materials was discussed, and the restrictions of such systems were highlighted. The chemistry developed by Dr. Leibler and co-workers, later adapted to silicones by Pr Zhang and his team, was deeply investigated during our comprehension study. Relationships between structure and properties were nonetheless not fully elucidated in these studies. Model reactions involving telechelic amino-PDMS and urea were then carried out. The thorough characterization of the final structure of the reaction products highlighted few correlations between structural parameters (choice of the type of associating group, molecular weight of copolymer, functionality) and properties (rheological and mechanical) that had not been demonstrated yet for these systems. We showed that, among others, the strength of the associating groups as well as the entanglements play a fundamental role. A different chemistry, inspired by Yilgör and co-workers’ studies on segmented copolymers, was later considered by carrying out an aza-Michael reaction. This synthesis differs from the previous one by its better control of the final macromolecular structure. A supramolecular silicone elastomer with self-healing abilities was obtained by combining a large functionality together with a high final molecular weight. Mechanical properties of this material were further enhanced through the addition of more or less reinforcing fillers. The influence of such reinforcement on self-healing capacity of this system was discussed. Matériaux supramoléculaires Elastomères thermoplastiques Pdms Urée Isocyanate-Free Auto_cicatrisation Charges renforçantes Supramolecular materials Thermoplastic elastomers Pdms Urea Isocyanate-Free Self-Healing Reinforcing fillers 620.194 072
604	Soybean Yield and Biomass Response to Supplemental Nitrogen Fertilization McCoy, Justin Michael 12 August 2016 (has links) Soybean (Glycine max [L.] Merr.) has become one of the main agricultural grain crops produced in the United States. Soybean production continues to increase in high-yield environments throughout the U.S. New innovations are required to sustain gains in soybean yield potential. Field experiments were conducted at the Delta Research and Extension Center in Stoneville, MS in 2014 and 2015 to evaluate soybean aboveground biomass and grain yield response to supplemental N fertilization in a high-yielding environment on two soil textures commonly cropped to soybean in Mississippi. Greenhouse studies were conducted in 2016 at the Delta Research and Extension Center in Stoneville, MS to evaluate the influence of supplemental N fertilization on nodule formation and belowground biomass of soybean on two soil textures commonly cropped to soybean in Mississippi. soybean soybean fertilization soybean nitrogen soybean root growth nitrogen nodule inhibition soybean nodulation polymer coated urea late season nitrogen fertilizer
605	Co-processing of drugs and co-crystal formers and its effect on pharmaceutical dosage-form performance. Co-crystallization of urea/ 2-methoxybenzamide, caffeine/ malonic acid, caffeine/ oxalic acid and theophylline/ malonic acid systems: Solid-state characterization including imaging, thermal, X-ray and Raman spectroscopic techniques with subsequent evaluation of tableting behaviour Ibrahim Mohamed, Asim Y. January 2008 (has links) This dissertation has focused on the solid-state characterization of different co-crystal system as well as the effect of co-crystallization of these systems on pharmaceutical dosage form performance. Urea/ 2-MB, caffeine/ malonic acid, caffeine/ oxalic acid and theophylline/ malonic acid co-crystals were prepared using co-grinding- and co-precipitation techniques. In addition, the synthesis of co-crystals through two novel methods has been demonstrated. This includes compaction and convection mixing. The solid-state characterization of the co-crystals has been carried out using XRPD, Raman spectroscopy, DSC, TGA, hot-stage microscopy and SEM. After preparation of co-crystals, tablets have been produced from co-ground-, co-precipitated-, and physical mixtures using Compaction Studies Press (Kaleva), and the data were recorded to compare between the different mixtures, regarding compactibilty, compressibility and deformational properties. The DSC results showed that the physical mixtures of all systems, formed co-crystals during heating process. For systems of urea/ 2-MB, caffeine/ malonic acid and theophylline/ malonic acid, the co-ground mixture produced tablets with higher tensile strength compared with either co-precipitated or physical mixture. However, for caffeine/ oxalic acid system, the tensile strengths of compacts produced from the physical mixture were greater than those obtained from either co-ground or co-precipitated mixtures. The Heckel data suggested that urea/ 2-MB, caffeine/ malonic acid and theophylline/ malonic acid systems are Type 1 materials, as an extensive linearity during compression was indicative of a plastic deformation mechanism, while the caffeine/ oxalic acid system was Type 2 materials. However, the co-precipitated mixture of urea/ 2-MB system was the least compressible, as it possessed the greatest value of yield pressure (85 MPa) and the highest elastic recovery (7.42%). The co-precipitated mixture of both of caffeine/ malonic acid and theophylline/ malonic acid systems was the most compressible with small yield pressure values of (44 & 80 MPa) and elastic recovery of (7.2% & 6.56%), respectively. The co-ground mixture of caffeine/ oxalic acid possessed the highest value of yield pressure (166 MPa) and thus the lowest compressibility among other mixtures. Furthermore, the addition of microcrystalline cellulose and α-lactose monohydrate has affected the crystallinity as well as the tableting properties of the co-crystals. After the addition of excipients, the tensile strength of compacts was about 2 times higher than any other mixture. Finally, urea/ 2-MB and caffeine/ malonic acid co-crystals were successfully synthesized through convection mixing and compaction. / Islamic University of Omdurman and the Ministry of Higher Education in Sudan
606	Carbamoyloxymono- und -disilane: Synthese, Substituentenaustauschverhalten und Zersetzung Ryll, Christopher 02 June 2023 (has links) Durch die Insertion von CO2 in die Si-N-Bindung von Diaminosilanen sind Di(carbamoyloxy)silane zugänglich. Mittels thermischer Zersetzung dieser Insertionsprodukte können Siloxane und entsprechende Harnstoffderivate erhalten werden. In dieser Arbeit wurden die chemischen Reste in diesen Systemen variiert um Siloxane mit verschiedenen Substitutionsmustern zu erhalten. Außerdem wurde das Substituentenaustauschverhalten des System Aminosilan/Carbamoyloxysilan näher untersucht. Dabei konnte die Substanzklasse der Amino(carbamoyloxy)silane nachgewiesen werden. Auch die Adaption der Versuche auf Triaminosilane und Aminodisilane wurde erfolgreich durchgeführt. Dadurch wurden vernetzte Siloxane als Thermolyseprodukte erhalten. Einige Carbamoyloxydisilane bilden zudem fünffach koordiniertes Silicium aus.:Vorwort 1. Einleitung und Motivation 2. Literaturteil (Siloxane/Silikone und Harnstoffe) 3. Diaminosilane 4. CO2-Insertion in Diaminosilane - Synthese von Di(carbamoyloxy)silanen 5. Thermolyse 6. Triaminosilane und Tri(carbamoyloxy)silane 7. Aminodisilane und Carbamoyloxydisilane 8. Zusammenfassung und Ausblick 9. Experimenteller Teil 10. Anhang info:eu-repo/classification/ddc/540 ddc:540 Anorganische Chemie Silicium Chemische Synthese Kohlendioxid Siloxane Carbamoylverbindungen Pyrolyse
607	Cost-effective benchtop fabrication of sensitive electrochemical biosensing platforms Gonzalez Martinez, Eduardo January 2023 (has links) The accurate and rapid detection of clinically relevant analytes at the point-of-care (POC) is a crucial element for the increase in our quality of life. There are multiple detection techniques for sensing a target analyte in biological samples. However, electrochemical sensors excel because of their versatility, accuracy and sensitivity. Among the many challenges in the fabrication of electrochemistry-based POC sensors, the miniaturization of the working electrodes is one of the most difficult to overcome. Decreasing the size of the sensors will result in less electroactive surface area (ESA) and, therefore, lower sensitivity. Thus, the design of miniaturized electrodes with high ESA is desired in this research field. The methodology developed in our laboratory to accomplish this goal is based on the fabrication of microstructured gold electrodes (MSEs) by depositing, via sputtering, a gold thin-film onto a pre-stressed polystyrene substrate masked with adhesive vinyl stencils and thermally shrinking the substrate at high temperatures (135-160 °C). In my thesis work, I developed cost-effective sensitive electrochemical platforms using only bench-top approaches. First, the ESA and, thus, the sensitivity of the MSEs were enhanced by using a simple and rapid nano-roughening approach. The ESA of MSEs was increased 4x by applying high voltage pulsing in sulfuric acid. The resulting electrodes possessed high anti-fouling capabilities and excellent response toward the enzyme-free detection of glucose with a limit of detection (LOD) of 0.62 mM in the presence of bovine serum albumin (BSA) and ascorbic acid. Furthermore, the fabrication cost of the MSEs electrodes was decreased by 5x by replacing the sputtering deposition step with a cost-effective solution-based electroless deposition technique. In this case, the PS substrates were coated with a polydopamine adhesion layer and noble metal films (copper, silver and gold) were subsequently plated. Not only the cost of the gold electrode was substantially reduced but, due to the intrinsic roughness of the surface, the MSEs electrodes obtained via electroless deposition showed a higher ESA than those made via sputtering. Furthermore, the developed electroless method was extended for the fabrication of paper-based sensing devices. The sensing versatility of these surfaces was demonstrated by electrochemically detecting mercury with a 0.27 ppb LOD and by sensing thiophenol via surface-enhanced Raman scattering (SERS). The MSEs electrodes fabricated via electroless deposition were subjected to the nano-roughening technique to generate affordable and high ESA electrodes. These platforms were used to design enzyme-based biosensors to accurately detect glucose and urea in complex samples. Glucose was detected in four different types of wine, with matrix interference measured below 10%, and in human serum, with a measured concentration that was not statistically different from that obtained from commercially available biosensors. Urea was detected in human urine and plasma with matrix interferences measured to be below 8% in both cases. We envision that the fabrication techniques developed in this thesis will rapidly grow in the scientific community for the prompt and accurate design of POC electrochemical devices. / Thesis / Doctor of Philosophy (PhD) microstructured electrodes nanoroughening paper-based electrodes glucose sensing urea sensing heavy metal detection electroactive surface are bench-top fabrication SERS detection
608	Improved Performance of Discrete Implementation of Switching Mode Controller for Urea-SCR Mrunal Sunil Chavan (16613454) 19 July 2023 (has links) <p>Diesel engines emit toxic gases like NOx and hydrocarbons. These gases need to be treated before they are released out the tailpipe. Thus, an aftertreatment system is installed which comprises of DOC, DPF and SCR. The DOC oxidizes the hydrocarbons and NO, the DPF traps the particulate matter and SCR reduces the NOx by reacting with NH3 at high temperatures. However, since NH3 is also a toxic gas, it cannot be released out the tailpipe in excess. It is important to inject an appropriate amount of NH3 so that it does not slip out the tailpipe. With increasingly stringent regulations on the emission limits of these toxic gases, control of SCR has become more necessary than before.</p> <p>In this thesis, the work done by previous members of the lab research group was improved upon. The objective remained the same, namely, keeping the NH3 slip under 50 ppm while maximizing NOx reduction. On initial inspection, it was realized that the entire controller had been designed and implemented in continuous time. Since the controller would be implemented digitally, with limited hardware sampling time, a discrete-time implementation as done via a DCU was created. The controller switched between two controllers – slip-based and storage-based. The slip-based controller was modified to include a feedforward term in the system so that the response time could be improved along with a feedback controller to eliminate any disturbances and steady-state error, using ammonia slip feedback as measured by an NH3 sensor. It aims at keeping the maximum ammonia slip under 50 ppm. The storage controller is a feedback controller which tries to limit the ammonia storage based on the values fed by a lookup table. This lookup table is a simplified table that determines the maximum ammonia storage at any given instant based on the catalyst bed temperature. The feedback controller gains for both controllers were determined based on a linearized plant model since the initial gains were ineffective with the discretized model. The initial switching mode controller that switches between slip control and storage control switched too frequently between the controllers, thereby affecting controller performance. A switching logic was implemented to limit the number of switches. A switch will be permitted only if the previous switch occurred over a certain time. By implementing all the subparts together in the controller, incremental improvements were prominent. In the end, the performance by implementing the proposed idea was distinctly better. The metrics considered for performance comparison are the number of switches and the ability to maximize slip up to 50 ppm. Parameter error was also studied as well and its effect on the controller performance was analyzed. The data when tested against sets of underestimated, overestimated and mixed estimates for the plant parameters resulted in the underestimated parameters to work within the scope of the objective. The controller was able to compensate for the underdosing. Overestimation caused overdosing in the system which led to spikes in the NH3 slip. Thus, it is better to underestimate the plant parameters than overestimate them.</p> Control engineering Diesel engine emission SCR Urea-SCR aftertreatment systems Ammonia Slip Catalyst On-board Diagnostics OBD (On-Board Diagnostics)
609	Creating nano composite TiO2.Fe2O3/laterite material applying to treat arsenic compound in groundwater: Research article Nguyen, Hoang Nam 25 August 2015 (has links) This article presents nano composite TiO2.Fe2O3/laterite materials, which were successfully prepared by hydrometallurgical method. The materials were modified using urea as the nitrogen source. The particles size of the materials is from 20-30 nanometers. The obtained materials can not only absorb arsenic compounds but also enhance the ability of converting As (III) or As (V) into Aso, which is removed from solution. Arsenic removal efficiency of these materials is high. Using sunlight in a hydraulic retention time, about 180 minutes, the arsenic value at the inflow was about 10 mg/L but the outflow was negligible. Covering TiO2.Fe2O3 nano on laterite have brought high economical efficiency, on one hand, it saved material and on the other hand, it can be continuously operated without the centrifugal separation of the nano material. / Bài báo này giới thiệu về phương pháp điều chế vật liệu nano TiO2.Fe2O3 biến tính nitơ được phủtrên đá ong bằng phương pháp thủy luyện. Vật liệu nano thu được có kích thước 20-30 nm. Vật liệu thu được không những có khả năng hấp phụ các hợp chất của asen mà còn có khả năng khử As (III) hoặc As (V) thành Asokhi được chiếu sáng. Sử dụng ánh sáng mặt trời chiếu vào hệ thống xử lý trong thời gian 180 phút có thể loại bỏ được gần như hoàn toàn asen ra khỏi nước mặc dù hàm lượng đầu vào là 10 mg/l. Việc phủ vật liệu TiO2.Fe2O3 nano lên đá ong đã mang lại hiệu quả kinh tế cao, một mặt nó tiết kiệm được vật liệu, mặt khác, vật liệu có thể sử dụng một cách liên tục mà không cần phải tách bằng phương pháp ly tâm. info:eu-repo/classification/ddc/363.7 ddc:363.7
610	LOCALIZED ANTIBIOTIC DELIVERY VIA VALINE BASED POLY(ESTER UREA) Nikam, Shantanu P. 11 June 2018 (has links) No description available. Experiments Materials Science Organic Chemistry Polymer Chemistry Polymers Biomedical Engineering Chemistry

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