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101	Estrutura, função e estabilidade de hidrolases gicosídicas pertencentes à família GH5 com potencial aplicação na conversão de biomassa lignocelulósica em açúcares fermentáveis = Structure, function and stability of the glycosyl hidrolases that belong to GH5 family with potencial application in the conversion of lignocellulosic biomass in fermentable sugars / Structure, function and stability of the glycosyl hidrolases that belong to GH5 family with potencial application in the conversion of lignocellulosic biomass in fermentable sugars Paiva, Joice Helena, 1985- 23 August 2018 (has links) Orientador: Mário Tyago Murakami / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-23T21:09:06Z (GMT). No. of bitstreams: 1 Paiva_JoiceHelena_D.pdf: 28922115 bytes, checksum: be729b855c60f1b34aac3a0b43e0aeac (MD5) Previous issue date: 2013 / Resumo: O resumo poderá ser visualizado no texto completo da tese digital / Abstract: The abstract is available with the full electronic document / Doutorado / Bioquimica / Doutora em Biologia Funcional e Molecular Glicosídeo hidrolases Enzimas - Biotecnologia Cristalografia de proteínas Estabilidade térmica Dicroismo circular Glycosyl hydrolases Enzymes - Biotechnology Protein crystallography Thermal stability Circular dichroism
102	Spectrally selective AlXOY/Pt/AlXOY solar absorber coatings for high temprature solar-thermal applications Nuru, Zebib Yenus January 2014 (has links) Philosophiae Doctor - PhD / The limited supply of fossil hydrocarbon resources and the negative impact of CO2 emission on the global environment dictate the increasing usage of renewable energy sources. Concentrating solar power (CSP) systems are the most likely candidate for providing the majority of the renewable energy. For efficient photo-thermal conversion, these systems require spectrally selective solar absorber surfaces with high solar absorbance in the solar spectrum region and low thermal emittance in the infrared region. In this thesis, a spectrally selective AlxOy/Pt/AlxOy multilayer solar absorber was designed and deposited onto copper substrate using electron beam evaporation at room temperature. The employment of ellipsometric measurements and optical simulation was proposed as an effective method to optimize and deposit the multilayer solar absorber coatings. The optical constants measured using spectroscopic ellipsometry, showed that both AlxOy layers, which used in the coatings, were dielectric in nature and the Pt layer was semi-transparent. The optimized multilayer coatings exhibited high solar absorptance ~ 0.94±0.01 and low thermal emittance ~ 0.06 ± 0.01 at 82oC.The structural and optical properties of the coatings were investigated. It was found that the stratification of the coatings consists of a semitransparent middle Pt layer sandwiched between two layers of AlxOy. The top and bottom AlxOy layers were nonstoichiometric with no crystalline phases present. The Pt layer is in the fcc crystalline phase with a broad size distribution and spheroidal shape in and between the rims of AlxOy. The surface roughness of the stack was found to be comparable to the inter-particle distance. To study the thermal stability of the multilayer solar absorber coatings, the samples were annealed at different temperatures for different duration in air. The results showed changes in morphology, structure, composition, and optical properties depend on both temperature and duration of annealing. The XRD pattern showed that the intensity of Pt decreased with increasing annealing temperature and therefore, disappeared at high temperature. With increasing annealing temperature, an increase in the size of Pt particles was observed from SEM. The AlxOy/Pt/AlxOy multilayer solar absorber coatings deposited onto Cu substrate were found to be thermally stable up to 500oC in air for 2 h with good spectral selectivity of 0.951/0.09. At 600oC and 700oC, the spectral selectivity decreased to 0.92/0.10 and 0.846/0.11 respectively, which is attributed to the diffusion of Cu and formation of CuO and Cu2O phases. Long term thermal stability study showed that the coatings were thermally stable in air up to 450oC for 24 h. To elucidate the degradation mechanism beyond 500oC, HI-ERDA has been used to study depth-dependent atomic concentration profiles. These measurements revealed outward diffusion of the copper substrate towards the surface and therefore, the decrease in the constituents of the coating. Hence, to prevent copper from diffusing towards the coatings, a thin Tantalum (Ta) layer was deposited between the base AlxOy layer and the copper substrate.The effect of a thin Ta layer on the thermal stability of AlxOy/Pt/AlxOy multilayer solar absorber coatings was investigated. The Cu/Ta/AlxOy/Pt/AlxOy multilayer solar absorber coatings were found to be thermally stable up to 700oC in air for 2 h with good spectral selectivity of 0.937/0.10. At 800oC, the spectral selectivity decreased to 0.870/0.12, which is attributed to the diffusion of Cu and formation of CuO phase. The formation of CuO phase was confirmed by XRD, EDS and Raman spectroscopy. Long term thermal stability study showed that the coatings were thermally stable in air up to 550oC for 24 h. Therefore, the Cu/Ta/AlxOy/Pt/AlxOy spectrally selective solar absorber coatings can be used for high temperature solar-thermal applications. Solar absorbers Absorptance Emittance Spectral selectivity Optical constants Morphology Structure Composition Annealing Thermal stability Optical performance Diffusion barrier
103	Toward Understanding the Mechanisms of of Lipid Sensitivity in Pentameric Ligand-Gated Ion Channels Labriola, Jonathan January 2013 (has links) Pentameric ligand-gated ion channels (pLGICs) are membrane bound receptors found in the nervous system. They are responsible for detecting neurotransmitters released from neurons and subsequently mediating responses of the cells on which they are found. Thus, pLGICs play an invaluable role in communication between cells of the nervous system and understanding their function is pivotal to understanding how the nervous system works in general. One factor which is known to mediate pLGIC function is lipids found in the membrane environment in which pLGICs are embedded. This dissertation explores the various ways in which lipids interact with and modulate the function of pLGIC. Potential mechanisms and biological consequences of this modulation will be presented and discussed within the context of our current state of knowledge of pLGIC and nervous system function. Nicotinic acetylcholine receptor Infrared Spectroscopy Nervous system Protein structure and function Electrophysiology Protein thermal stability Lipid-protein interactions
104	FABRICATION, PLASTICITY AND THERMAL STABILITY OF NANOTWINNED AL ALLOYS Qiang Li (7041092) 12 October 2021 (has links) <p>Applications of Aluminum (Al) alloys in harsh environments involving high stress and high temperatures are often hindered because of their inherently low strength and poor performance at high temperatures. The strongest commercial Al alloys reported up to date have a maximum strength less than 700 MPa. Although ultrafine grained Al alloys prepared by severe plastic deformation have higher strength, they encounter grain growth at moderate temperatures. </p> <p>This thesis focuses on adopting transition metal solutes and non-equilibrium approach to fabricate high-strength, thermally stable nanotwinned Al alloys. To understand the underlying deformation mechanisms of nanotwinned Al alloys, <i>in-situ</i> micromechanical tests, high resolution and analytical transmission microscopy and atomistic simulations were used. Our studies show that nanotwinned supersaturated Al-Fe alloys have a maximum hardness and flow stress of ~ 5.5 GPa and 1.6 GPa, respectively. The apparent directionality of the vertical incoherent twin boundaries renders plastic anisotropy and compression-tension asymmetry in the nanotwinned Al-Fe alloys, revealed by systematic <i>in-situ</i> tensile and compressive micromechanical experiments conducted from both in-plane and out-of-plane directions. Moreover, the nanotwinned Al-Fe alloys experience no apparent softening when tested at 200 °C. When selectively incorporating with one additional solute as stabilizer, the ternary nanotwinned Al alloys can preserve an exceptionally high flow stress, exceeding 2 GPa, prior to precipitous softening at an annealing temperature of > 400 °C. The thesis offers a new perspective to the design of future strong, deformable and thermally stable nanostructured Al alloys. </p> Metals and Alloy Materials Al alloys Fabrication Plasticity Thermal Stability in-situ microscopy nanocrystalline solid solution
105	Novel method for preparing fish collagen gels with excellent physicochemical properties via the dehydration of ethanol Shen, Lirui, Xu, Songcheng, Wu, Kun, Li, Guoying 26 June 2019 (has links) Content: Fish collagen has been considered to be an alternative for mammalian collagen, however, physicochemical properties of fish collagen-based materials such as gels are so far not adequate for actual application. In the present study, we prepared two types of fish collagen gels with sufficient elasticity: i) dehydrated fibrillogenesis collagen gels (DFCG), which were fabricated via collagen self-assembly followed by immersion in different concentrations of ethanol solutions, and ii) dehydrated cross-linking collagen gels (DCCG), which were fabricated via collagen self-assembly and simultaneous cross-linking followed by immersion in ethanol solution. Furthermore, the physicochemical properties of DFCG and DCCG were analyzed by atomic force microscopy, differential scanning calorimetry, enzymatic degradation and dynamic viscoelastic measurements. The microstructure of DFCG was consisted of characteristic Dperiodic collagen fibrils and insusceptible of ethanol concentrations (20-100% (v/v)). However, the thermal stability, remaining weight after enzymatic degradation and mechanical properties of DFCG distinctly increased with the increase of ethanol dose, possiblely ascribing that ethanol with higher polarity might dehydrate partial free water of DFCG and strengthen the interactions of hydrogen bond. Especially, for the gel treated by 100% (v/v) enthanol, Td increased by 32.7 °C and G′ was 55-folds than those of undehydrated gel (43.1 °C and 239.2 Pa). In the case of DCCG, the formation of collagen fibrils was depended on the concentrations of N-hydroxysuccinimide adipic acid derivative (NHS-AA), which was converted to [NHS-AA]/[NH2] ratios (calculated by the [active ester group] of NHS-AA and [ε-NH2] of lysine and hydroxylysine residues of collagen). As the ratio= 0.05, the characteristic D-periodic fibrils were still formed and the treatment of 60% (v/v) ethanol increased the Td (52.5 °C) and G′ (7388 Pa) values of the gel compared with those of uncross-linked gel (49 °C and 2064.32 Pa, respectively), majorly resulting from the effects of covalent cross-linking bonds and hydrogen bonds. However, when the ratio= 0.2, the collagen self-assembly was intensively inhibited and the dehydration of free water within gel structure in the absence of thick fibrils led to the shrinkage of the gel and an obvious decrease in Td (42 °C) and G′ (432 Pa). Although the [NHS-AA]/[NH2] ratio further increased to 0.8, the thermal stability and elasticity of the gel enhanced mildly suggesting that the presence of thick fibrils formed via the self-assembly was significantly crucial for reinforcing the gels. Take-Away: The fish collagen gels with excellent elasticity were prepared via the treatment of ethanol. The physicochemical properties of the dehydrated gels were depended on the concentrations of ethanol. The presence of characteristic D-periodic fibrils was significantly crucial for reinforcing the gels. info:eu-repo/classification/ddc/620 ddc:620
106	Effects of Choline Chloride, Urea and Their Deep Eutectic Solvents on the Modification of Leather Qi, Letian, Fu, Lihong 26 June 2019 (has links) Content: The application of split leather is an important issue in leather industry as most of them was not properly treated and wasted. In this study the application of choline chloride (ChCl), urea (U) and corresponding deep eutectic solvents (DES) on the modification of thermal stability and mechanical strength of mink split leather was investigated. TGA and DSC results indicated DES treatment enhanced thermal stability of split leather, and ChCl treatment reduced the stability. While, U treatment provided a kinetic inhibition during the thermal-decomposition. In terms of the mechanical strength, both ChCl and U treatment reduced burst intensity and extended height. While, after DES treatment the burst intensity and extended height increased significantly. In terms of the dosage, 7% DES provided best performance. Results mentioned above illustrated that DES formed by simply mixing ChCl and U provided strong interaction with fiber, enhanced the crosslinks. A hypothesis of [Ch(Urea)]+[Cl(Urea)]- type structure was proposed, as it enabled DES forming strong hydrogen bonds with functional groups on leather fiber, enhancing the crosslinks and therefore improving the thermal stability and mechanical strength. The DES treatment on leather fibers improved their overall performance and thereby broaden their applications. Take-Away: 1. DES obtained by mixing ChCl and urea presented very different effect in leather treatment, as the thermal stability and physical strength of leather improved significantly after the DES treatment. 2. A hypothesis of [Ch(Urea)]+[Cl(Urea)]- type structure was proposed, illustrating a formation of strong hydrogen bonds between DES and functional groups on leather fiber. This enhances the crosslinks and therefore improves the thermal and mechanical strength of leather. info:eu-repo/classification/ddc/620 ddc:620
107	Stabilita půdní organické hmoty a huminových látek / Stability of soil organic matter and humic substances Nováková, Šárka January 2018 (has links) This diploma thesis is focused on changes of stability in organic matter by extraction in different agents. Two soils of a different type and isolated humic acids were used for stability determination. Extraction agents were selected usually used for soil metal extraction, and a changes in the structure of the organic matter was observed. Samples were characterized using FTIR analysis and elemental analysis, the extracts were measured by UV-VIS spectroscopy, absorption ratios E2/E3, E4/E6 were discovered, dynamic light scattering were determined for particle size distributions. Next part of the thesis was the assessment of the change of thermal stability using thermogravimetric analysis and differential scanning calorimetry, degradation temperatures of the extracted samples were discovered and compared with the original samples.
108	Chemická a termická stabilita huminových komplexů / Chemical and thermal stability of humic complexes Nováková, Tereza January 2014 (has links) The aim of this diploma thesis was the study of relation between chemical and thermal stability of complexes of humic acids with heavy metals, namely nickel, cobalt and copper. Complexes were prepared with metal solutions of three different initial concentrations. Through UV-VIS spectrophotometry were determined adsorbed amounts of incorporated metal ions in the structure of humic acid; it was affirmed that amount of bounded metal ions increases with increasing initial concentration. Chemical stability was determined as an amount of released metal ions, two of extraction agents were used (solution of MgCl2 and HCl), total bounded amount was distribute into three different fractions; residual fraction, strongly bound fraction and mobile and ion-exchangeable fraction. Changes that occured in the structure of humic acids after complexation and extraction were investigated by FT-IR spectrometry. Thermo-oxidative stability was tested through thermogravimetric analysis (TGA) and differential scanning calorimetry. The results of this diploma thesis has showed comparision of complexes of two different humic acids. They have confirmed an impact of each metal ion on thermo-oxidative stability of humic acids. The relation between chemical and thermal stability was compared through correlation of data obtained by these methods.
109	Vliv hliněných omítek na tepelnou stabilitu místnosti / Effect of clay plasters application on heat storage Koukalová, Pavla January 2017 (has links) The aim of this master thesis is a research of effects of clay plaster application and natural ventilation on heat storage of a room. In addition to theoretical analysis of basic characteristics of clay as material used in the field of civil engineering, an experimental verification of these characteristical features is carried out as well. The thesis also studies thermal comfort of a room in terms of humidity and concentration of CO2 in dependence of natural ventilation. In the last part, numerical verification of effects of clay plaster application on heat storage is calculated using Simulace 2015 software.
110	Formulation, mise en oeuvre et caractérisation de gants élastomères à caractère radioprotecteur et antimicrobien / Formulation, implementation and characterization of elastomeric gloves with radioprotective and antimicrobial properties Klipfel, Florian 28 May 2019 (has links) Cette étude porte sur l’apport de nouvelles fonctionnalités à des matériaux élastomères qui seront utilisés pour la réalisation de gants. Des additifs possédant des propriétés antimicrobiennes ainsi que des charges possédant des propriétés radioprotectrices sont insérées dans des matrices polymères. La méthode de mise en œuvre utilisée est l’enduction par trempage, l’impact de ces additifs sur les propriétés rhéologiques de solutions dans lesquelles les élastomères sont dissous sont analysées. L’incorporation de certaines amines peut entraîner une vulcanisation des élastomères en solution. Après la réalisation d’échantillons par trempage, la stabilité thermique des élastomères est étudiée par analyse thermogravimétrique ainsi que par une analyse infrarouge. Certains oxydes métalliques peuvent modifier la dégradation thermique d’élastomères comportant des groupes chlorés en favorisant la déchlorination. L’impact des additifs sur les élastomères vulcanisés a également été étudié, ces mesures ont permis de mettre en évidence l’impact de certains additifs sur la vulcanisation ainsi que les interactions charges-élastomère par la mise en évidence de l’effet Mullins. Enfin, une méthode de détermination des propriétés radioprotectrices des élastomères a été mise en place afin de déterminer les formulations fournissant la meilleure atténuation aux rayonnements ionisants. / The aim of this study is to give new functionalities to elastomers that will be used as gloves. Some antimicrobials and radioprotective additives will be incorporated in different polymer matrixes. The elastomers have been realized by dip coating, the impact of the additives on the rheological properties of the solutions of elastomers was analysed. Some amines can interact with the elastomers in the solvent and accelerate the vulcanization. The thermal stability of the charged elastomers has then been investigated by thermogravimetric analysis and infrared measurments. Some metallic oxides interact with elastomers containing chlorine and change the dehydrochlorination process. The impact of the additives on the mechanical properties of vulcanized elastomers has been studied, the impact of some additives on the vulcanization and the existence of strong charge-polymer interactions have been demonstrated. Finally, a method to measure the radioprotective properties of filled elastomers has been developed to measure the attenuation of the composite against ionizing radiations. Elastomères chargés, Propriétés mécanique Stabilité thermique Additifs antimicrobiens Filled elastomers Radioprotection Mechanical properties Thermal stability Ntimicrobial additives

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