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51	The Effect Of Colloidal Stability On The Heat Transfer Characteristics Of Nanosilica Dispersed Fluids Venkataraman, Manoj 01 January 2005 (has links) Addition of nano particles to cooling fluids has shown marked improvement in the heat transfer capabilities. Nanofluids, liquids that contain dispersed nanoparticles, are an emerging class of fluids that have great potential in many applications. There is a need to understand the fundamental behavior of nano dispersed particles with respect to their agglomeration characteristics and how it relates to the heat transfer capability. Such an understanding is important for the development and commercialization of nanofluids. In this work, the stability of nano particles was studied by measuring the zeta potential of colloidal particles, particle concentration and size. Two different sizes of silica nano particles, 10 nm and 20 nm are used in this investigation at 0.2 vol. % and 0.5 vol. % concentrations. The measurements were made in deionized (DI) water, buffer solutions at various pH, DI water plus HCl acid solution (acidic pH) and DI water plus NaOH solution (basic pH). The stability or instability of silica dispersions in these solutions was related to the zeta potential of colloidal particles and confirmed by particle sizing measurements and independently by TEM observations. Low zeta potentials resulted in agglomeration as expected and the measured particle size was greater. The heat transfer characteristics of stable or unstable silica dispersions using the above solutions were experimentally determined by measuring heat flux as a function of temperature differential between a nichrome wire and the surrounding fluid. These experiments allowed the determination of the critical heat flux (CHF), which was then related to the dispersion characteristics of the nanosilica in various fluids described above. The thickness of the diffuse layer on nano particles was computed and experimentally confirmed in selected conditions for which there was no agglomeration. As the thickness of the diffuse layer decreased due to the increase in salt content or the ionic content, the electrostatic force of repulsion cease to exist and Van der Waal's force of agglomeration prevailed causing the particles to agglomerate affecting the CHF. The 10nm size silica particle dispersions showed better heat transfer characteristics compared to 20nm dispersion. It was also observed that at low zeta potential values, where agglomeration prevailed in the dispersion, the silica nano particles had a tendency to deposit on the nickel chromium wire used in CHF experiments. The thickness of the deposition was measured and the results show that with a very high deposition, CHF is enhanced due to the porosity on the wire. The 10nm size silica particles show higher CHF compared to 20nm silica particles. In addition, for both 10nm and 20nm silica particles, 0.5 vol. % concentration yielded higher heat transfer compared to 0.2 vol. % concentration. It is believed that although CHF is significantly increased with nano silica containing fluids compared to pure fluids, formation of particle clusters in unstable slurries will lead to detrimental long time performance, compared to that with stable silica dispersions. nano particles silica zeta potential agglomeration diffuse layer critical heat flux concentration pH ionic strength particle size Engineering Materials Science and Engineering
52	Fabrication and use of new solid state phosphate ion selective electrodes for monitoring phosphorylation and dephosphorylation reactions Enemchukwu, Emeka Martin 06 1900 (has links) Highly selective and sensitive phosphate sensors have been fabricated by constructing a solid membrane disk consisting of variable mixtures of aluminium powder (Al), aluminium phosphate (AlPO4) and powdered copper (Cu). Both binary and ternary electrode systems are produced depending on their composition. The ternary membranes exhibit greater selectivity over a wide range of concentrations. The ternary electrode with the composition 25% AlPO4, 25% Cu and 50% Al was selected as our preferred electrode. The newly fabricated ternary membrane phosphate selective electrodes exhibited linear potential response in the concentration range of 1.0 × 10−6 to 1.0 × 10−1 mol L−1. The electrodes also exhibit a fast response time of <60 s. Their detection limit is 1.0 × 10−6 mol L−1. The unique feature of the described electrodes is their ability to maintain a steady and reproducible response in the absence of an ionic strength control. The electrodes have a long lifetime and can be stored in air when not in use. The selectivity of the new phosphate selective electrodes with respect to other common ions is excellent. The results obtained provide further insight into the working principles of the newly fabricated phosphate selective electrodes. Dephosphorylation and phosphorylation reactions were monitored using the preferred phosphate selective electrode. The following reactions were studied and inferences drawn; (a) the reactions between [{CoN4(OH)(OH2)}]2+ and [OH(PO2O)]2- for 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [OH(PO2O)]2- ratios.(b) the reactions between [{CoN4(OH)(OH2)}]2+ and [O2NC6H4PO2(O)(OH)]- for 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [O2NC6H4PO2(O)(OH)]- ratios. (c) the reactions between [{CoN4(OH)(OH2)}]2+ and [(OH)2(PO2)2O]2- for 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [(OH)2(PO2)2O]2- ratios, and (d) the reactions between [{CoN4(OH)(OH2)}]2+ and [(OH)2(PO2)3O2]3- for the 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [(OH)2(PO2)3O2]3- ratios. Further insight into dephosphorylation and phosphorylation reactions is unravelled by the novel phosphate selective electrode monitoring. *For clarity of the complexes utilized, see chapter 4, table 4.1. KEY WORDS; Dephosphorylation, phosphorylation, ion selective electrodes, phosphate ion selective electrode, decontamination, electromotive force, potential difference, activity, concentration, selectivity coefficient, calibration, ionic strength, hydrolysis, inorganic phosphates, nitrophenylphosphate, pyrophosphate, tripolyphosphate, organophosphate esters. / Chemistry / D.Phil (Chemistry) Dephosphorylation Phosphorylation Ion selective electrodes Phosphate ion selective electrode Decontamination Electromotive force Potential difference Selectivity coefficient Calibration Ionic strength Hydrolysis Inorganic phosphates Nitrophenylphosphate Pyrophosphate Tripolyphosphate Organophosphate esters 541.39 Phosphate esters Electrodes, Ion selective Calibration Phosphates Solid state chemistry
53	Caractérisation des nanoparticules polymériques par la technique d'ultracentrifugation analytique Diaz, Leosveys 12 1900 (has links) L’utilisation de nanoparticules (NPs) dans divers domaines industriels est de plus en plus fréquente ce qui génère leur propagation dans l’environnement. Selon leur persistance, mobilité, bioaccumulation et toxicité, des risques inconnus pour la santé et pour des écosystèmes peuvent en résulter. En effet, la caractérisation et la quantification sont des défis analytiques très complexes en raison de la nature dynamique (petite taille, grande réactivité et instabilité) des nanomatériaux. L'objectif de cette étude est donc de caractériser par ultracentrifugation analytique (AUC) des nanoparticules polymériques (Allosperse® dites allosphères) qui sont destinées à des fins agricoles. Pour y parvenir, différentes NPs métalliques (argent, quantum dot), oxydes métalliques (dioxyde de titane, oxyde de zinc) et NPs de polystyrène ont d’abord été mesurés par AUC à l’aide des différents systèmes de détection (absorbance, fluorescence et interférence). Dans le cas des allosphères, un grand nombre d'essais préliminaires ont été réalisés afin d'optimiser la vitesse d'ultracentrifugation, le temps d'ultracentrifugation, le nombre de numérisations et la concentration de l'échantillon. Un protocole optimisé a été utilisé pour la détermination du diamètre hydrodynamique (dh) des NPs. Les différentes analyses qui ont été réalisées dans cette étude révèlent que l’AUC permet de déterminer la taille de très petites NPs. Par ailleurs, une étude du comportement de ces allosphères pour des pH entre 4-8, des forces ioniques de 0 à 500 mM, en présence ou absence de matière organique naturelle a été entreprise. Les travaux ont montré que le dH était d’environ 7,0 nm avec de petites augmentations à faible pH, ou à très grande force ionique ou dureté. Ces résultats indiquent la grande stabilité physique et chimique des allosphères qui auront, ainsi, une grande mobilité dans les sols. La diffusion de lumière dynamique et la spectroscopie de corrélation de fluorescence ont été utilisées afin de valider les résultats obtenus par l’AUC. / The use of nanoparticles (NPs) in numerous industrial fields is becoming more common, which increases their propagation in the environment. Their generally unknown persistence, mobility, bioaccumulation and toxicity all contribute to increased risks to human health and to ecosystems. Unfortunately, their characterization and quantification are complex analytical challenges due in large part to their dynamic nature (small size, high reactivity and instability). The objective of this study was to characterize polymeric nanoparticles (Allosperse®), which are intended for the dispersion of the nanopesticides using analytical ultracentrifugation (AUC). To achieve this goal, the sizes of various metallic nanoparticles (nAg, QD), metallic oxides (nTiO2, nZnO) and polystyrene nanoparticles (nPS) were first determined by AUC using different detectors (absorbance, fluorescence and interference). In the case of polymeric nanoparticles, a number of preliminary tests were carried out in order to optimize the speed and duration of the ultracentrifugation, the number of scans and the concentration of the NPs for the determination of their hydrodynamic diameter (dh). The analysis indicated that the AUC was able to measure the sizes of the smallest nanoparticles. In addition, evaluations of the behavior of these nanoparticles between pH 4-8, ionic strengths from 0 to 500 mM, in the presence and absence of natural organic matter (NOM) showed that they had a dh of about 7.0 nm with small increases at low pH or for large ionic strengths or hardness. These results strongly demonstrated a high physical and chemical stability of allosphères, which implied that they would have a high mobility in soils. Dynamic light scattering (DLS) and fluorescence correlation spectroscopy (FCS) were used to validate the results obtained by the AUC. Nanoparticules polymériques Caractérisation pH Force ionique Dureté Matière organique naturelle Mobilité Sols Ultracentrifugation analytique Polymeric nanoparticles Characterization pH Ionic strength Hardness Natural organic matter Mobility Soil Analytical ultracentrifugation
54	Greffage irréversible de polyélectrolytes sur des substrats de silice et de mica et étude des propriétés de surface et de gonflement Machado Romero, Vivian C. 12 1900 (has links) Le protocole pour le greffage irréversible du copolymère amphiphile polystyrène-b-poly (acrylate de sodium) PS-b-PANa, sur un substrat de mica et de silice hydrophobe a été développé, en utilisant la méthode de greffage à partir de solution. Les propriétés de surface du bloc chargé ont été évaluées. L’effet de la force ionique sur le gonflement des chaînes a été investigué par ellipsométrie. Les forces d’interaction entre les surfaces recouvertes du copolymère ont été évaluées par la technique SFA. Les profils de force ont démontré être stables et nettement répulsifs en compression et décompression, montrant l’irréversibilité du greffage. Les forces de frottement entre les brosses de PANa sont élevées, mais aucune évidence d’endommagement de la surface n’a été observée. La comparaison entre le comportement à la surface des chaînes de l’acide polyacrylique PAA et celles du PANa, obtenues par deux méthodes de greffage différentes, est également investiguée. / A protocol for irreversibly grafting of amphiphilic copolymer polystyrene-b-poly (sodium acrylate) PS-b-PANa onto hydrophobized mica and silica was developed, using the grafting to approach. Surface properties of charge block were evaluated. The swelling of chains and force ionic effect were studied by ellipsometry. The interaction forces and frictional forces were evaluated by SFA technique. Forces profiles were stable and clearly repulsive in loading and receding, indicating an irreversible grafting. High friction forces onto PANa brushes were determinate without evidence of damage at the surface. The comparison between solution behavior of polyacrylic acid, PAA and PANa brushes, obtained via different grafting methods, was equally investigated. Surfaces intelligentes Propriétés de surface Greffage irréversible Copolymère PS-b-PANa Gonflement Frottement SFA Smart surfaces Surface properties Irreversible grafted Amphiphilic Copolymer PS-b-PAA Ionic strength Swelling Friction
55	ADSORPCE ORGANICKÝCH LÁTEK PRODUKOVANÝCH SINICÍ MICROCYSTIS AERUGINOSA NA AKTIVNÍM UHLÍ / ADSORPTION OF ALGAL ORGANIC MATTER PRODUCED BY MICROCYSTIS AERUGINOSA ONTO ACTIVATED CARBON Krsová, Magdalena January 2013 (has links) The aim of this diploma thesis is to evaluate the efficiency of two types of granular activated carbon (GAC), Filtrasorb TL 830 and Picabiol 12x40, for the adsorption of cellular peptides with low molecular weight produced by cyanobacterium Microcystis aeruginosa that are hardly removable during the coagulation/flocculation processes. The effect of different carbon properties (surface charge, textural characteristics), peptide properties (molecular size, surface functionality and charge) and solution characteristics (ionic strength and pH value) on the peptide uptake was investigated using laboratory equilibrium and kinetic adsorption experiments. The results showed that adsorption of peptides was influenced by the charge conditions in adsorption system that depend on solution pH. The pH value influences surface charge and the point of zero charge (pHpzc) of GAC as well as dissociation and protonization of peptide functional groups. It was found that efficiency of the peptide adsorption increased with decreasing pH value for both GACs. Under these conditions adsorption was enhanced by attractive electrostatic interactions between GAC surface and peptide functional groups and was also positively influenced by the conformation changes in peptide structure. GAC Picabiol 12x40 showed the total highest...
56	Etude de la dynamique des domaines de la NADPH-cytochrome P450 réductase humaine / Dynamics of domains in human cytochrome P450 NADPH reductase Fatemi, Fataneh 21 June 2013 (has links) La NADPH cytochrome P450 réductase (CPR) est une flavoprotéine multidomaines appartenant à la famille des diflavines réductases et un des composants essentiels du système redox des cytochromes P450. La CPR est formée de deux domaines catalytiques contenant des groupements prosthétiques FAD et FMN et d'un domaine de connexion. Le domaine FAD reçoit deux électrons du NADPH et les transfère un par un au domaine FMN, qui, à son tour, les transfère aux accepteurs. Le transfert d’électron du FMN vers les accepteurs nécessite un déplacement du domaine FMN par rapport au reste de la molécule. Au fils des années, les études structurales menées sur la CPR ont mis en évidence la réorganisation structurale et l’arrangement des domaines dans cette protéine. Cependant, les résultats de ces analyses ne fournissent pas d’informations concernant la vitesse à laquelle les mouvements des domaines de la CPR s’effectuent et n’incluent toujours pas les paramètres qui induisent le changement conformationnel ainsi que l'influence de ces changements sur l’activité catalytique de la CPR.Le projet de cette thèse a consisté à apporter de nouveaux éléments de compréhension sur la relation entre les changements conformationnels de la CPR et son cycle catalytique. La première partie de ce travail a porté sur le développement de stratégies de préparation au marquage des domaines catalytiques de la CPR, destinés à l’étude dynamique de cette protéine par le FRET. Différentes stratégies ont été envisagées parmi lesquelles l’incorporation de p-acétyle phénylalanine sur des positions définies dans la CPR. La deuxième partie de ce travail est consacrée à l’étude dynamique de la CPR via des techniques de RMN et SAXS combinées à des approches biochimiques. Les expériences menées ont permis de caractériser en solution et en absence de NaCl, la présence d’un état rigide, globulaire en conformation fermée dans laquelle les domaines FMN et FAD sont maintenus « verrouillés » par des interactions à l’interface entre ces deux domaines. L’augmentation de la concentration en NaCl permet une transition de cet état « verrouillé » vers un état plus ouvert pour lequel il n’y a plus d’interface entre les domaines FAD et FMN. L’état « déverrouillé » de la CPR correspond à un équilibre dynamique entre un ensemble de conformations en échange rapide. Cet équilibre est contrôlé par la force ionique et l’activité catalytique de la CPR est maximale lorsque les états verrouillés et déverrouillés sont également peuplés. Le modèle cinétique proposé par nos études a permis de mettre en évidence un lien direct entre la dynamique des domaines et l’activité du transfert d’électron au cours de cycle catalytique de la CPR. / NADPH cytochrome P450 reductase (CPR) is a multidomain flavoprotein that belongs to the diflavines reductase family. It is an essential component of redox system delivering electrons for cytochrome P450. CPR is composed of two catalytic domains containing FAD and FMN prosthetic groups and a connecting domain. FAD domain receives two electrons from NADPH and transfers them one by one to the FMN domain, which in turn transfers them to the acceptor. The electron transfer from FMN to the acceptor requires a large domain movement. Over the years, structural studies of CPR have highlighted the reorganization and arrangement of domains in this protein. However, the results of these analyses do not provide any information about how fast the domains movements takes place in CPR, and do not always include the parameters that induce conformational change as well as influence of those changes on the catalytic activity of the CPR. This thesis aims to bring new elements of comprehension on the relationship between conformational changes in CPR and its catalytic cycle. The first part of the work concerned the development of strategies to label the catalytic domains of CPR, a prerequisite for the dynamic study of this protein by FRET. Different strategies have been proposed including the incorporation of p-acetyl phenylalanine at defined positions in CPR. The second part of this work is devoted to the dynamic study of CPR through a combined SAXS, NMR and biochemical approaches. The experiments conducted allowed to characterize the presence of a rigid and globular state of closed conformation for CPR, in solution and in the absence of NaCl. In this conformation the FMN and FAD domains are kept "locked" by interface interactions between these two domains. Increasing the NaCl concentration permits the transition from the "locked" stats to an open conformation in which there is no more interface between the FAD and FMN domains. The "unlocked" state of CPR is a dynamic equilibrium between ensembles of conformations in fast exchange. This equilibrium is controlled by the ionic strength and CPR presents its maximum catalytic activity when the locked and unlocked states are equally populated. We proposed a kinetic model which allows demonstrating a direct link between the domain movement and electron transfer activity during the catalytic cycle of CPR. NADPH cytochrome P450 réductase CPR Transfert d'électrons Dynamique des domaines Changement conformationnel État verrouillé Force ionique État déverrouillé Modèle cinétique NADPH cytochrome P450 reductase CPR Electron transfer Domain movement Conformational change Locked state Ionic strength Unlocked state Kinetic model
57	Estudos da agregação de corantes ciânicos em soluções aquosas homogêneas e na presença de nanoestruturas / Studies of the aggregation of cyanine dyes in homogeneous aqueous solutions and in the presence of nanostructures Amado, André Miele 14 July 2017 (has links) Os corantes ciânicos (CC) são compostos orgânicos que possuem uma estrutura facilmente variável, permitindo obter-se as características fotofísicas desejáveis. Devido a sua alta afinidade por estruturas biológicas, baixa citotoxicidade no escuro, alta solubilidade em meio aquoso e fotoatividade os CC são considerados compostos promissores para aplicações no tratamento do câncer por terapia fotodinâmica (TFD). CC possuem uma forte tendência de se agregar em meio aquoso, que modifica suas características fotofísicas, reduzindo os rendimentos quânticos de fluorescência e do estado tripleto, diminuindo assim sua eficiência em suas aplicações como sonda fluorescente e na TFD, todavia, a agregação aumenta a eficiência da conversão da sua energia de excitação em calor, que é importante para sua aplicação na terapia por hipertermia (HT). Sendo introduzido num organismo o CC se encontra no ambiente onde ele vai interagir com sais e estruturas nano-heterogêneas (membrana celular, ácidos nucléicos etc.), interações que podem influenciar na sua agregação. Nesse trabalho investigamos o fenômeno da agregação dos CC em suas interações com sistemas nano-heterogêneos naturais (DNA) e sintéticos (micelas) em função da sua própria estrutura, da estrutura destes sistemas e da composição da solução: as concentrações do corante e do sistema nano-heterogêneo e a força iônica. Entre os CC, escolhemos como modelos a Acridina Laranja (AL) e os corantes com dois cromóforos (BCD) que se diferem pelo ângulo formado entre seus cromóforos. Utilizamos técnicas espectroscópicas estacionárias e com resolução temporal de absorção óptica, fluorescência, espalhamento ressonante e dinâmico da luz e fotólise por pulso relâmpago. Descobrimos que em soluções aquosas homogêneas os sais induzem a agregação dos CC. No caso da AL, os sais suprimem sua fluorescência pelo aumento da agregação da AL e pela formação de um exciplexo entre a AL em seu estado excitado singleto e o ânion do sal. A interação dos CC com estruturas nano-organizadas é complexa. Observamos que na interação do CC com o DNA aparecem várias espécies em equilíbrio, tais como monômeros de CC livres e ligados ao DNA, agregados de CC ligados ao DNA e agregados de DNA ligados com os monômeros de CC. A ligação da AL ao DNA reduz a probabilidade do contato da AL com outras moléculas. Contudo, na presença do DNA os sais reduzem a agregação da AL devido à redução da constante de ligação da AL com o DNA. Na presença do dodecil sulfato de sódio (SDS), observamos que em baixas concentrações este estimula a agregação do CC. O aumento da concentração de SDS induz a desagregação do CC. Identificamos que os agregados dos CC com SDS apresentam uma dinâmica que pode perdurar por diversas horas. Durante esse período os agregados trocam suas formas H e J. Investigamos uma possível aplicação prática da agregação numa terapia de HT, identificando que a agregação protege o CC da fotodecomposição e aumenta a eficiência da geração de calor. Os resultados obtidos são importantes para avaliar o potencial de aplicação do CC como fotossensibilizadores em terapia fotodinâmica, fotohipertermia e sondas fluorescentes em diagnóstico por fluorescência. / Cyanine dyes (CD) are organic compounds that have an easily variable structure, thus allowing obtain desirable photophysical characteristics. Due to their high affinity to biological structures, low cytotoxicity in the dark, high solubility in aqueous medium and photoactivity the CD are promising materials for application as photosensitizers in cancer treatment by photodynamic therapy (PDT) and as fluorescence probes in fluorescence diagnostics (FD). CD have a strong tendency to aggregate in aqueous media, which modify their photophysical characteristics, reducing its fluorescence and triplet state quantum yields, thus decreasing their efficiency in applications in PDT and FD. At the same time, aggregation increases the probability of excitation energy conversion into heat, which is important for application in hyperthermia (HT) therapy. Being introduced into organism, CD will interact with salts and nano-heterogeneous structures (cell membrane, nucleic acids etc.). These interactions can affect its aggregation. In this work we have investigated the CD aggregation phenomenon at its interactions with natural (DNA) and synthetic (micelles) nano-heterogeneous systems in function of their own structure, structure of the nano-heterogeneous system and the solution characteristics like dye and nano-heterogeneous system concentrations and ionic strength. Among CD, we have chosen as models Acridine Orange (AO) and cyanine dyes with two chromophores (BCD) that differ by the angle between chromophores. Stationary and time-resolved optical absorption, fluorescence, resonant and dynamic light scattering spectroscopies and flash photolysis were used. We have found that in homogeneous aqueous solutions salts induce the CD aggregation. In the case of AO, the salts quench the AO fluorescence by increasing its aggregation and by forming an exciplex between the AO molecule in its singlet excited state and the salt anion. Interaction of CD with nano-organized systems is complex. We observed that at CD interaction with DNA there appear several species in equilibrium, such as CD monomers free and bound to DNA, CD aggregates bound to DNA and DNA aggregates bound to CD monomers. The aggregation of DNA molecules around AO monomers reduces the probability for AO contact with other molecules. In the presence of DNA salts reduce AO aggregation due to reduction of the AO binding constant to DNA. Sodium dodecyl sulfate (SDS) in low concentrations induces CD aggregation, while higher SDS concentrations stimulate CD disaggregation. The process of CD aggregation in the presence of SDS can continue for several hours. During this period, the form of aggregates may modify from H to J or from J to H depending on the dye structure. The irradiation of dye solutions with visible light increases the solution temperature. Aggregation protected CD from photodecomposition and increased heat generation. The results obtained may help in evaluation the potential of CD as photosensitizers in photodynamic therapy, photohyperthermia and fluorescent probes in fluorescence diagnostics. Acridina laranja acridine orange aggregation Agregação Biscianinas biscyanines Corantes ciânicos cyanine dyes Efeitos de pH e força iônica pH and ionic strength effects
58	Hidr?lise e caracteriza??o de poliacrilamida hidrofobicamente modificada: avalia??o da aplicabilidade na recupera??o de petr?leo Lima, Bruna Vital de 02 February 2010 (has links) Made available in DSpace on 2014-12-17T15:41:48Z (GMT). No. of bitstreams: 1 Bruna Vital de Lima_DISSERT.pdf: 1526229 bytes, checksum: 072431027e1aefba9f0023f2f514ae5f (MD5) Previous issue date: 2010-02-02 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The hydrolysis reaction in alkaline conditions of the commercial polymer poly(acrylamide-co-metacrylate of 3,5,5-trimethyl-hexane) called HAPAM, containing 0.75 % of hydrophobic groups, was carried out in 0.1 M NaCl and 0.25M NaOH solutions, varying the temperature and reaction time. The polymers were characterized by 1H and 13C Nuclear Magnetic Resonance (NMR), Elemental Analysis and Size Exclusion Chromatography (SEC). The values of the hydrolysis degree were obtained by 13C NMR. The viscosity of HAPAM and HAPAM-10N-R solutions was evaluated as a function of shear rate, ionic strength and temperature. At high polymer concentration (Cp), the viscosity of HAPAM solutions increased with the ionic strength and decreased with the temperature. The viscosity of HAPAM-10N-R solutions increased significantly in distilled water, due to repulsions between the carboxylate groups. At high Cp, with the increase of ionic strength and temperature, occurred a decrease of viscosity, due to mainly the high hydrolysis degree and the low amount of hydrophobic groups. These results indicated that the studied polymers have properties more suitable for the application in Enhanced Oil Recovery (EOR) in low salinity and moderate temperature reservoirs / A rea??o de hidr?lise em meio alcalino do pol?mero comercial poli(acrilamida-co-metacrilato de 3,5,5 trimetil-hexano) denominado HAPAM, contendo 0,75 % de grupos hidrof?bicos, foi realizada em solu??es de NaCl 0,1 M e NaOH 0,25 M, variando a temperatura e o tempo reacional. Os pol?meros foram caracterizados por Resson?ncia Magn?tica Nuclear (RMN) de 1H e 13C, An?lise Elementar e Cromatografia de Exclus?o por Tamanho (SEC). Os valores do grau de hidr?lise foram obtidos por RMN 13C. A viscosidade das solu??es de HAPAM e HAPAM-10N-R foi avaliada em fun??o da taxa de cisalhamento, for?a i?nica e temperatura. ? alta concentra??o polim?rica (Cp), a viscosidade das solu??es de HAPAM aumentou com a for?a i?nica e diminuiu com o aumento da temperatura. A viscosidade das solu??es de HAPAM-10N-R aumentou significantemente em ?gua destilada, devido ?s repuls?es entre os grupos carboxilato. ? alta Cp, com o aumento da for?a i?nica e da temperatura ocorreu uma diminui??o da viscosidade, devido, principalmente, ao alto grau de hidr?lise e ? baixa quantidade de grupos hidrof?bicos. Estes resultados indicaram que os pol?meros estudados apresentam propriedades mais adequadas para aplica??o na recupera??o avan?ada de petr?leo (EOR) em reservat?rios de baixa salinidade e temperatura moderada Grau de hidr?lise Reologia For?a i?nica Temperatura 1H and 13C nuclear magnetic resonance Charge density Rheolog Ionic strength Temperature Hydrophobically modified polyacrylamide
59	Relationships between shoot and root growth of cucumber (Cucumis sativus L.) plants under various environmental stresses Chung, G. C. January 1983 (has links) The response of cucumber (Cucumis sativus L.) plants to various root and shoot environments (solution depth, temperature, ionic strength, nitrogen and calcium level and light intensity) were studied. Cucumber plants were grown in continuously circulating-solution in a heated-glasshouse. Dry weights of leaves, stems and roots, leaf area, leaf number, root length and root number were measured as well as uptake of potassium, calcium and nitrogen. The relationship between shoot and root in terms of functional equilibrium equations was also examined. The results presented show that: 1. Shoot growth of cucumber plants was reduced if grown in solutions of less than 50mm in depth; 2. When roots were grown in shallow solution depths at 1 or 5mm the dry weight allocated to the root increased. The ratio of root number/root length(no./cm) also increased. Lowering solution temperature to 12.5±2.5°C enhanced the production of root number relctive to root length, and 5 and 2% of full strength and 5% of full strength nitrogen level solution stimulated the growth of root length relative to root number; 3. Under low solution temperature treatment leaf number was maintained at the expense of leaf area. Under low total ionic strength and low nitrogen solution, enhanced root length growth was at the expense of leaf area growth; 4. Low solution temperature enhanced the dry weight allocated to the stem relative to the leaf. Low total ionic strength and low nitrogen solution increased the dry weight allocated to the leaf relative to the stem; 5. The specific activity of root, represented by specific absorption rate, increased when the shoot was under light stress and, the specific activity of shoot, represented by unit shoot rate, increased when the root was under nitrogen-stress; 6. The form of equation developed by Thornley (∆M = fm∆W, where ∆M is the increment in weight of element M and ∆W the increment in total plant dry weight during a time period ∆t with fm a constant) showed a better relationship than the equation developed by Davidson [root mass x rate(absorption) ∝ leaf mass x rate(photosynthesis)] and subsequently used by Hunt in the form of mass ratio(root/shoot) ∝ l/activity ratio; 7. The equation developed by Chung et al, total plant weight/(leaf number/leaf area) ∝ total "k"/(root number/root length), where k represents the total contents of elements or compounds, showed a good approximation of the relationship between shoot and root under all the environmental stresses imposed with the exception of calcium uptake. The results support the concept that the activity of the root or shoot in carrying out its function is influenced by the demand created by the opposite organ and appears to be a better assumption than that which proposes that the activity of an organ is solely dependent on its own size. Cucumber (Cucumis sativus L.) solution depth solution temperature ionic strength light intensity nitrogen and calcium level shoot root morphology functional equilibrium equations nutrient film technique
60	Stimulus-responsive delivery systems for enabling the oral delivery of protein therapeutics exhibiting high isoelectric point Koetting, Michael Clinton 01 September 2015 (has links) Protein therapeutics offer numerous advantages over small molecule drugs and are rapidly becoming one of the most prominent classes of therapeutics. Unfortunately, they are delivered almost exclusively by injection due to biological obstacles preventing high bioavailability via the oral route. In this work, numerous approaches to overcoming these barriers are explored. PH-Responsive poly(itaconic acid-co-N-vinylpyrrolidone) (P(IA-co-NVP)) hydrogels were synthesized, and the effects of monomer ratios, crosslinking density, microparticle size, protein size, and loading conditions were systematically evaluated using in vitro tests. P(IA-co-NVP) hydrogels demonstrated up to 69% greater equilibrium swelling at neutral conditions than previously-studied poly(methacrylic acid-co-N-vinylpyrrolidone) hydrogels and a 10-fold improvement in time-sensitive swelling experiments. Furthermore, P(IA-co-NVP) hydrogel microparticles demonstrated up to a 2.7-fold improvement in delivery of salmon calcitonin (sCT) compared to methacrylic acid-based systems, with a formulation comprised of a 1:2 ratio of itaconic acid to N-vinylpyrrolidone demonstrating the greatest delivery capability. Vast improvement in delivery capability was achieved using reduced ionic strength conditions during drug loading. Use of a 1.50 mM PBS buffer during loading yielded an 83-fold improvement in delivery of sCT compared to a standard 150 mM buffer. With this improvement, a daily dose of sCT could be provided using P(IA-co-NVP) microparticles in one standard-sized gel capsule. P(IA-co-NVP) was also tested with larger proteins urokinase and Rituxan. Crosslinking density provided a facile method for tuning hydrogels to accommodate a wide range of protein sizes. The effects of protein PEGylation were also explored. PEGylated sCT displayed lower release from P(IA-co-NVP) microparticles, but displayed increased apparent permeability across a Caco-2 monolayer by two orders of magnitude. Therefore, PEG-containing systems could yield high bioavailability of orally delivered proteins. Finally, a modified SELEX protocol for cellular selection of transcellular transport-initiating aptamers was developed and used to identify aptamer sequences showing enhanced intestinal perfusion. Over three selection cycles, the selected aptamer library showed significant increases in absorption, and from an initial library of 1.1 trillion sequences, 5-10 sequences were selected that demonstrated up to 10-fold amplification compared to the naïve library. These sequences could provide a means of overcoming the significant final barrier of intestinal absorption. / text Hydrogels Protein therapeutics Protein therapy Drug delivery Oral delivery Aptamers PH-responsive Stimulus-responsive Ionic strength Isoelectric point PEGylation Conjugation Bioconjugation Intestinal absorption Intestinal transport Itaconic acid N-vinylpyrrolidone Methacrylic acid Mesh size Crosslinking density SELEX In vivo Closed-loop

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