Aplicação da 4-fenilenodiaminopropilsílica xerogel como adsorvente na pré-concentração de cobre em águas

Vaghetti, Júlio César Pacheco

January 2005

Neste trabalho utilizou-se um adsorvente híbrido mesoporoso, a 4- fenilenodiaminopropilsílica (4-PhAP/sílica) que foi obtida através do processo sol-gel. O material foi caracterizado através de espectroscopia de infravermelho, análise elementar de carbono, hidrogênio e nitrogênio (CHN). Na continuidade do trabalho o adsorvente foi empregado na pré-concentração de amostras certificadas de água com posterior determinação de Cu2+ por espectroscopia de absorção atômica com forno de grafite (GFAAS). A massa característica de Cu2+ encontrada foi 15,0 ± 0,2 pg, sendo que o limite de detecção na determinação de cobre em água empregando o procedimento de préconcentração foi 0,2 µg l-1. Foi possível realizar em torno de 750 ciclos de leitura com o mesmo tubo de grafite. Durante a pré-concentração, agitou-se dentro em um frasco de polietileno: aliquotas de 5,00 ml de água certificadas, 20,0 ml de tampão acetato (pH 5,2) e 20,0 mg do adsorvente. Após 60 minutos de contato, separou-se a fase sólida contendo adsorvente mais adsorbato da fase líquida através de filtração, suspendeu-se então 15,0 mg do adsorvente contendo Cu2+ em 1 ml de solução contendo HNO3 0,5% e Triton X-100 0.05%. No prosseguimento do trabalho 20,0 µl desta suspensão foi diretamente introduzida numa plataforma integrada de um tubo de grafite, previamente tratada com modificador permanente W-Rh. O fator de pré-concentração obtido com a utilização do xerogel 4-PhAP/sílica como adsorvente foi 3,75, sendo que a capacidade de retenção do adsorvente foi 0,52 mmol de cobre por grama de material adsorvente.

Gel de sílica : Síntese

Sol-gel

Novos agentes sililantes aplicaveis em imobilização, processo sol-gel, filossilicato e termoquimica de interação / New silylating agents used in immobilization, sol-gel process phyllosilicate and thermochemical of interaction

Oliveira, Andrea Sales de

23 February 2006

Orientador: Claudio Airoldi / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-06T22:13:54Z (GMT). No. of bitstreams: 1 Oliveira_AndreaSalesde_M.pdf: 1662618 bytes, checksum: 6fc730175bfb573a5e6babb34946288d (MD5) Previous issue date: 2006 / Resumo: Novos agentes sililantes foram preparados através da reação do precursor -3glicidoxipropiltrimetoxissilano com a molécula de interesse 2-aminofenildissulfeto, que contém centros básicos distintos nitrogênio e enxofre. Os novos agentes sintetizados foram covalentemente fixados na estrutura polimérica da silica gel por imobilização, utilizando as rotas homogênea e heterogênea e através do processo sol-gel. Nessa metodologia o novo agente sililante hídrolisa juntamente com o tetraetoxidossilano em meio básico, possibilitando a incorporação de grupos pendentes derivados dos agentes de partida. A sílica mesoporosa foi obtida através do processo sol-gel no qual ocorre a cocondensação entre grupos silanóis, que são formados na hidrólise, e a conseqüente polimerização para chegar ao produto final, sendo que a presença do direcionador dodecilamina funciona na formação de micela. Neste processo a rnicela é envolta pelo reagente tetraetoxissilano, que também permite a agregação do novo agente sililante, antes que ocorra o direcionamento da co-condensação da estrutura inorgâníca. O emprego de um sal de magnésio, em meio básico, juntamente com o agente resulta numa estrutura lametar do filossilicato, contendo a parte orgânica no espaço intertamelar. As propriedades de adsorção com as novas superfícies foram utilizadas na remoção de metais divalentes como cobre, chumbo e cádmio, os quais têm afinidade com os centros básicos de Lewis da molécula ancorada. A ordem de adsorção observada em todos os casos foi Cu > Pb > Cd. Os efeitos energéticos entre os centros básicos dispostos em cadeias pendentes, com os cátions na interface sólido/líquido foram determinados através de titulações calorimétricas. / Abstract: New silylating agents were synthesized by reacting the precursor 3-glycidoxypropyltrimethoxysilane with the molecule of interest 2-aminophenyldisulfide, that contains distinct nitrogen and sulfur basic centres. The new silylating agents were covalently anchored onto polymeric backbone silica gel by using homogeneus and heterogeneus routes and also through sol-gel process. By applying this methodology, the silylating agent hydrolyses together tetraethoxysilane (TEOS) in basic condition, enabling the incorporation of pendent groups derived from the original agents. Mesoporous silica was obtained through sol-ge process, in which occurs the co-condensation between silanol groups formed from hydrolysis and followed by palymerization to yield the final product. The presence of dodecylamine in water causes the micelle formation, wich is covered by TEOS to permit the aggregation of the silylating agent, before co-condensing the organized inorganic structure. The use of a magnesium salt in basic condition together with a silylating agent results in a lamellar phyllosilicate, in wich inorganic structure the organic moieties are banding inside the interlamellar space. The adsorption properties of the new surfaces were explored to cations removal such as copper, lead and cadmium that have affinity for basic Lewis centres, to give the adsorption order Cu > Pb > Cd. The energetic effects between basic centres present in pendent chains and cations at the solid/liquid interface were determined through calorimetric titrations. / Mestrado / Quimica Inorganica / Mestre em Química

Sililantes

Fitossilicato

Sílica

Sol-gel

Cordierita : sintese por processamento sol-gel

Lima, Patricia Tavares de

23 July 2018

Orientador: Celso Aparecido Bertran / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-07-23T13:55:18Z (GMT). No. of bitstreams: 1 Lima_PatriciaTavaresde_M.pdf: 2924918 bytes, checksum: 7a7d3e5d1691d52cb5aa9a78d165f5de (MD5) Previous issue date: 1998 / Mestrado

Cerâmica

Uréia

Processo sol-gel

Topicos de aproximação em espaços normados

Radin, Lucelia Aparecida

03 June 2002

Orientador : Ary Orozimbo Chiacchio / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Matematica, Estatistica e Computação Cientifica / Made available in DSpace on 2018-08-01T00:45:56Z (GMT). No. of bitstreams: 1 Radin_LuceliaAparecida_M.pdf: 1620497 bytes, checksum: a50467e4398741fd1797e0571c2bef4c (MD5) Previous issue date: 2002 / Resumo: Neste trabalho, abordamos alguns tópicos de Teoria de Aproximação em espaços normados reais tais como a existência e unicidade do elemento de melhor aproximação e a continuidade da projeção métrica. Apresentamos exemplos e contra-exemplos de conjuntos de existência e de conjuntos de Chebyshev. Abordamos também, o problema da conexidade dos conjuntos de Chebyshev em espaços de Hilbert. Além disso, estudamos algumas classes de espaços com propriedades específicas, tais como convexidade uniforme e suavidade, para os quais é possível garantir uma resposta afirmativa para a seguinte questão: todo conjunto de Chebyshev é convexo? / Abstract: In this work we treat some topics of the Approximation Theory in the real normed spaces, such as the existence and uniqueness of the element of best approximation and the continuity of the metric projection. We present examples and counter-examples of sets of existence and Chebyshev sets. We also treat the problem of connectedness of Chebyshev sets in Hilbert spaces. Furthermore, we study some classes of spaces with specific geometrical properties such as uniform convexity and smootheness, for which is possible to guarantee an affirmative answer for the following question: is every set of Chebyshev convex? / Mestrado / Mestre em Matemática

Chebyshev, Aproximação de

Sol

Teoria da aproximação

Uso da metodologia sol-gel na preparação de materiais amorfos e nanoestruturados à base de sílica contendo grupos orgânicos com propriedades específicas

Grando, Sílvia Regina

January 2014

Nesse trabalho foram desenvolvidos novos materiais à base de sílica, amorfos e nanoestruturados, pelo método sol-gel de síntese e a adição de precursores com grupos funcionais específicos. Inicialmente foi investigado o comportamento fotofísico de benzazolas dispersas em xerogéis híbridos com diferentes hidrofobicidades, preparados com a adição de diferentes porcentagens molares do precursor dimetildimetoxisilano (DDMS). Nos espectros normalizados de emissão de fluorescência do corante 2-(5’-amino-2’-hidroxifenil) benzimidazol (5-AHBI) disperso nos xerogéis híbridos foram observadas duas bandas, uma delas atribuída a emissão normal (N*) e a outra atribuída a emissão pelo mecanismo de transferência protônica intramolecular no estado excitado - ESIPT (E*), com deslocamento de Stokes próximo a 150 nm. Nos híbridos contendo o corante 2-(5’-amino-2’-hidroxifenil) benzotiazol (5-AHBT), observou-se uma banda bastante alargada em que a emissão de fluorescência mostrou-se dependente da polaridade da matriz, com a emissão máxima variando de 496 para 533 nm com o aumento da porcentagem de DDMS nas sínteses. Sílicas mesoporosas ordenadas do tipo MCM-41 e SBA-15 foram sintetizadas e os resultados de difração de raios X (XRD) e das isotermas de adsorção-dessorção de N2 desses materiais mostraram organização hexagonal de poros, elevadas áreas superficiais específicas, volume de poros de 0,90 cm3 g-1 e distribuição uniforme de mesoporos. Adicionalmente, o uso de autoclave na síntese da sílica MCM-41 parece ter contribuído para uma melhor organização estrutural. Nanopartículas de paládio (NPPd) estabilizadas em solução aquosa pelo silsesquioxano iônico DABCOSIL foram então suportadas nas sílicas mesoporosas ordenadas. As imagens de microscopia eletrônica de transmissão (TEM) mostraram NPPd com tamanho médio de 4 nm nos canais da matriz de sílica SBA-15, que se mostrou mais eficiente como suporte das NPPd em relação à sílica MCM-41. A sílica SBA-15 contendo as NPPd foi utilizada como catalisador heterogêneo em reações de acoplamento Suzuki, com taxas de conversão na ordem de 90 % para o 4-bromotolueno após quatro ciclos de reação. A influência da quantidade e do tipo de precursor contendo grupos orgânicos em ponte na formação de Organossílicas Mesoporosas Ordenadas (PMOs) também foi investigada. Foram preparadas PMOs usando-se o precursor 1,4-bis(trietoxisililpropilureido) benzeno (BDU) em diferentes porcentagens molares e brometo de hexadeciltrimetilamônio (CTAB) como agente direcionador de estrutura, em meio básico. O aumento da quantidade do grupo orgânico do precursor nos híbridos foi confirmada por análise elementar (CHN), análise termogravimétrica (TGA), ressonância magnética nuclear no estado sólido (29Si-NMR) e espectroscopia de absorção no infravermelho (FTIR). As propriedades estruturais e texturais dos híbridos foram analisadas por difração de raios X (XRD) e isotermas de adsorção-dessorção de N2 respectivamente, observando-se que o aumento na porcentagem de BDU provocou diminuição na organização estrutural e colapso dos mesoporos. Também foram preparadas PMOs com o silsesquioxano iônico DABCOSIL, usando-se diferentes direcionadores de estrutura e variando-se o pH do meio. O híbrido sintetizado de forma semelhante à sílica MCM-41 contendo o silsesquioxano iônico DABCOSIL, designado por MDABCO, mostrou maior organização estrutural que o híbrido preparado com o precursor BDU, nas mesmas condições de síntese. Imagens de TEM indicaram a presença de organização hexagonal de mesoporos para o híbrido designado por SDABCO, obtido com o silsesquioxano iônico DABCOSIL em condições experimentais semelhantes à sílica SBA-15. O híbrido SDABCO apresentou elevada área específica (610,5 m2 g-1), distribuição unimodal de mesoporos com máximo em aproximadamente 6,2 nm e volume de poros de 0,87 cm3 g-1. Os resultados indicaram que a incorporação do DABCOSIL na formação de PMOs ocorreu preservando a estrutura hexagonal, o volume e tamanho de poros. Em outro trabalho, foram obtidas diferentes matrizes à base de sílica contendo o organossilano fluorescente 2,5-bis(3-(3-trietoxisilil)propil) ureido)tereftalato de dietila (BT) ligado quimicamente. Os híbridos obtidos pelo método da co-condensação (BTC) e pelo método de enxerto (BTG) mostraram organização hexagonal de poros, que foi confirmada pelas imagens de TEM e pelos resultados de XRD. Estes híbridos apresentaram distribuição uniforme de mesoporos em torno de 6 nm e áreas superficiais específicas na faixa de 600 m2 g-1, maiores do que os valores encontrados para o xerogel híbrido BTX. A análise morfológica do híbrido BTG foi realizada por microscopia eletrônica de varredura (SEM), sendo observadas partículas com uniformidade de tamanho e morfologia. O estudo fotofísico dos híbridos com o corante BT foi realizado por espectroscopia de refletância difusa na região do UV-Vis e por medidas de emissão de fluorescência no estado sólido. Os novos materiais híbridos fluorescentes apresentaram propriedades fotofísicas similares ao corante em etanol, indicando que nos híbridos o corante encontra-se disperso no nível molecular e sua estrutura eletrônica não foi perturbada de forma significativa após sua inserção nas matrizes sólidas. / In this work new silica based materials, amorphous and with nanostructural organization, were developed by the sol-gel method and the addition of precursors with specific functional groups. Initially it was investigated the photophysical behavior of benzazoles dispersed in hybrid xerogels with different hydrophobicities, which were prepared by the addition of different molar percentages of dimethoxydimethylsilane (DDMS) precursor. Two bands were observed in the normalized fluorescent emission spectra of 2-(5-amino-2-hydroxyphenyl)benzimidazole dye (5-AHBI) dispersed in the hybrid xerogels. One is ascribed to normal emission (N*) and another to the Excited State Intramolecular Proton Transfer - ESIPT emission (E*), with Stokes shift near to 150 nm. For the xerogels containing the 2-(5-amino-2-hydroxyphenyl)benzothiazole dye (5-AHBT) it was observed a large band where the fluorescence emission was dependent on the matrix polarity, with the maximum emission varying from 496 to 533 nm in the xerogels with 0 to 50 % of DDMS. Ordered mesoporous silica MCM-41 e SBA-15 were synthesized and the results of X-ray diffraction (XRD) and of N2 adsorption-desorption isotherms of these materials showed hexagonal organization, high specific surface areas, pore volume of 0,90 cm3 g-1 and uniform distribution of mesopores. Additionally the use of the autoclave in the synthesis of silica MCM-41 seems to have contributed to the improvement of the structural organization. Palladium nanoparticles (NPPd) stabilized in aqueous solution by the ionic silsesquioxane DACOSIL was supported in the mesoporous silica. The transmission electron microscopy (TEM) images showed NPPd with average size of 4 nm in the SBA-15 silica channels, which showed to be more efficient as support for NPPd than the MCM-41 silica. The silica SBA15 containing the NPPd was applied as heterogeneous catalyst in Suzuki coupling reactions, with conversion rates near 90% after four cycles of reaction with the 4-bromotoluene. The influence of the quantity and of the type of precursor containing bridged organic groups, in the formation of Periodic Mesoporous Organosilicas (PMOs) was investigated. The precursor 1,4-bridged diureylenebenzene silsesquioxanes (BDU) was used in different molar percentages in the synthesis of PMOs using cetyl trimethyl ammonium chloride (CTAB) as structural directing agent in basic medium. The increasing in the amount of precursor organic group in the hybrids was confirmed by elemental analysis (CHN), thermogravimetric analysis (TGA), solid state nuclear magnetic resonance (29Si-NMR) and infrared absorption spectroscopy (FTIR). The structural and textural properties of hybrids were obtained by XRD and N2 adsorption-desorption isotherms respectively, being observed that the increasing in the BDU percentage caused the decreasing in the structural organization and the collapse of mesopores. Other PMOs, called MDABCO and SDABCO, were prepared with the ionic silsesquioxane DACOSIL, using different structural directing agents and changing the pH of medium. The hybrid prepared in the similar way to MCM41 silica containing the ionic silsesquioxane dabcosil, called MDABCO, showed higher structural organization than the hybrid prepared with the BDU precursor, in the same synthesis conditions. For the hybrid SDABCO, which was obtained in similar experimental conditions to SBA-15 silica, the TEM images indicated the presence of hexagonal organization. The hybrid SDABCO also showed high specific surface area (610,5 m2 g-1), unimodal mesopore distribution with maximum near 6.2 nm and pore volume of ,87 cm3g-1. The results indicated that the incorporation of DABCOSIL in the PMOs formation occurred preserving the hexagonal structure, the pore volume and size. In another work different silica based matrices containing the fluorescent organosilane diethyl 2,5-bis[N,N-(3-triethoxysilyl)propylurea]terephtalate (BT) chemically bonded were obtained. The hybrids BTC and BTG, obtained by co-condensation method and grafting respectively, showed hexagonal organization that was confirmed by TEM images and by the XRD results. These hybrids showed uniform mesopore distribution near 6 nm and specific surface areas of 600 m2 g-1, which were higher than values found for the hybrid xerogel BTX. The morphological analysis of the BTG hybrid was made using the scanning electron microscopy (SEM), being observed particles with uniform size and morphology. The photophysical study of hybrids with the BT dye was made by diffuse reflectance spectroscopy in the UV-Vis region and by solid state fluorescence emission measurements. The new hybrid fluorescent materials presented photophysical properties similar to the dyes in ethanol, indicating that in the hybrids the dye is dispersed in molecular level and its electronic structure was not disturbed in significant form after the insertion in solid matrices.

Xerogel híbrido

Sol-gel

Sílica

Branched silica precursors as additives for mineral bone cements / Verzweigte Silica-Vorläufer als Additive für mineralische Knochenzemente

Holzmeister, Ib

January 2023

Mineral biocements are brittle materials, which usually results in catastrophic failure during mechanical loading. Here, previous works demonstrated the feasibility of reducing brittleness by a dual-setting approach, in which a silica sol was simultaneously gelled during the setting of a brushite forming cement. The current thesis aimed at further improving this concept by both using a novel silicate based cement matrix for an enhanced bonding between cement and silica matrix as well as multifunctional silica precursors to increase the network density of the gel. Due to its well-known biocompatibility and osteogenic regeneration capacity, baghdadite was chosen as mineral component of such composites. This required in a first approach the conversion of baghdadite ceramics into self-setting cement formulations. This was investigated initially by using baghdadite as reactive filler in a brushite forming cement (Chapter 4). Here, the ß-TCP component in a equimolar mixture of ß-TCP and acidic monocalcium phosphate anhydrous was subsequently replaced by baghdadite at various concentrations (0, 5, 10, 20, 30, 50, and 100 wt%) to study the influence on physicochemical cement properties such as mechanical performance, radiopacity, phase composition and microstructure. X-ray diffraction profiles demonstrated the dissolution of baghdadite during the cement reaction without affecting the crystal structure of the precipitated brushite phase. In addition, EDX analysis showed that calcium is homogeneously distributed in the cement matrix, while zirconium and silicon form cluster-like aggregates ranging in size from a few micrometers to more than 50 µm. X-ray images and µ-CT analyses indicate improved X-ray visibility with increased incorporation of baghdadite in brushite cement, with an aluminum equivalent thickness nearly doubling at a baghdadite content of 50 wt%. At the same time, the compressive strength of brushite cement increased from 12.9 ± 3.1 MPa to 21.1 ± 4.1 MPa at a baghdadite content of 10 wt%. Cell culture medium conditioned with powdered brushite cement approached physiological pH values when increasing amounts of baghdadite were added to the cement (pH = 6.47 for pure brushite, pH = 7.02 for brushite with 20 wt% baghdadite substitution). Baghdadite substitution also affected the ion content in the culture medium and thus the proliferation activity of primary human osteoblasts in vitro. The results demonstrated for the first time the suitability of baghdadite as a reactive cement additive for improving the radiopacity, mechanical performance, and cytocompatibility of brushite cements. A second approach (Chapter 5) aimed to produce single component baghdadite cements by an increase of baghdadite solubility to initiate a self-setting cement reaction. For this, the material was mechanically activated by longer grinding times of up to 24h leading to both a decrease in particle and crystallite size as well as a partial amorphization of baghdadite. Baghdadite cements were formed by adding water at a powder to liquid ratio of 2.0 g/ml. Maximum compressive strengths were determined to be ~2 MPa after 3 days of setting for a 24-hour ground material. Inductively coupled plasma mass spectrometry (ICP-MS) measurements showed an incongruent dissolution profile of the set cements, with preferential dissolution of calcium and only minor release of zirconium ions. Cement formation occurs under alkaline conditions, with the unground raw powder resulting in a pH of 11.9 during setting, while prolonged grinding increases the pH to about 12.3. Finally, mechanically activated baghdadite cements were combined with inorganic silica networks (Chapter 6) to create dual-setting cements with a further improvement of mechanical performance. While a modification of the cement pastes with a TEOS derived sol was already thought to improve strength, it was hypothesized that using multi-arm silica precursors can further enhance their mechanical performance due to a higher network density. In addition, this should also reduce pore size of both gels and cement and hence will be able to adjust the release kinetics of incorporated drugs. For this, multi-armed silica precursors were synthesized by the reaction of various multivalent alcohols (ethylene glycol, glycerine, pentaerythrit) with an isocyanate modified silica precursor. After hydrolysis under acidic conditions, the sols were mixed with baghdadite cement powders in order to allow a simultaneous gel formation and cement setting. Since the silica monomers have a high degree of linkage sites, this resulted in a branched network that interpenetrated with the growing cement crystals. In addition to minor changes in the crystalline phase composition as determined by X-ray diffraction, the novel composites exhibited improved mechanical properties with up to 20 times higher compressive strength and further benefit from an about 50% lower overall porosity than the reference pure baghdadite cement. In addition, the initial burst release of the model drug vancomycin was completely inhibited by the added silica matrix. This observation was verified by testing for the antimicrobial activity with Staphylococcus aureus by measuring the inhibition zones of selected samples after 24 h and 48 h, whereas the antimicrobial effectiveness of a constant vancomycin release could be demonstrated. The current thesis clearly demonstrated the high potential of baghdadite as a cement formulation for medical application. The initially poor mechanical properties of such cements can be overcome by special processing techniques or by combination with silica networks. The achieved mechanical performance is > 10 MPa and hence suitable for bone replacement under non-load bearing conditions. The high intrinsic radiopacity as well as the alkaline pH during setting may open the way ahead to further dental applications, e.g. as root canal sealers or filler in dental composites. Here, the high pH is thought to lead to antimicrobial properties of such materials similar to commonly applied calcium hydroxide or calcium silicates, however combined with an intrinsic radiopacity for X-ray imaging. This would simplify such formulations to single component materials which are less susceptible to demixing processes during transport, storage or processing. / Mineralische Biozemente sind spröde Materialien, die bei mechanischer Belastung in der Regel ein katastrophales Versagen zeigen. In früheren Arbeiten konnte die Sprödigkeit durch einen dual-härtenden Materialansatz verringert werden, bei dem ein dem Zement zugesetztes Kieselsol während des Aushärtens eines Bruschit-bildenden Zements simultan geliert und so die Matrix verstärkt. Die vorliegende Arbeit zielte darauf ab, dieses Konzept weiter zu verbessern, indem sowohl eine neuartige Zementmatrix auf Silikatbasis für eine verbesserte Bindung zwischen Zement und Kieselsäurematrix als auch multifunktionale Kieselsäure Precursoren zur Erhöhung der Netzwerkdichte des Gels verwendet wurden. Aufgrund der nachgewiesenen Biokompatibilität und osteogenen Regenerationsfähigkeit wurde Baghdadit als mineralischer Bestandteil solcher Komposite gewählt. Dies erforderte in einem ersten Ansatz die Umwandlung von Baghdadit-Keramik in selbsthärtende Zementformulierungen. Dies wurde zunächst durch die Verwendung von Baghdadit als reaktiver Füllstoff in einem Bruschit-bildenden Zement untersucht (Kapitel 4). Dabei wurde die β-TCP-Komponente in einem äquimolaren Gemisch aus β-TCP und saurem Monocalciumphosphat sukzessive durch Baghdadit in verschiedenen Konzentrationen (0, 5, 10, 20, 30, 50 und 100 Gew.-%) ersetzt, um den Einfluss auf die physikalisch-chemischen Zementeigenschaften, wie mechanische Festigkeit, Röntgenopazität, Phasenzusammensetzung und Mikrostruktur zu untersuchen. Röntgenbeugungsprofile zeigten die Auflösung von Baghdadit während der Zementreaktion, ohne die Kristallstruktur der ausgefällten Bruschitphase zu beeinträchtigen. Darüber hinaus zeigte die EDX-Analyse, dass Calcium homogen in der Zementmatrix verteilt ist, während Zirkon und Silizium clusterartige Aggregate mit einer Größe von einigen Mikrometern bis zu mehr als 50 µm bilden. Röntgenbilder und µ-CT-Analysen zeigen eine verbesserte Röntgensichtbarkeit bei erhöhtem Baghdadit-Anteil im Bruschit-Zement, wobei sich die Aluminium-Äquivalentdicke bei einem Baghdadit-Gehalt von 50 Gew.-% nahezu verdoppelt. Gleichzeitig stieg die Druckfestigkeit von Bruschitzement von 12,9 ± 3,1 MPa auf 21,1 ± 4,1 MPa bei einem Baghdaditgehalt von 10 Gew.-%. Zellkulturmedium, das mit pulverförmigem Bruschitzement konditioniert wurde, näherte sich physiologischen pH-Werten an, wenn dem Zement steigende Mengen an Baghdadit zugesetzt wurden (pH = 6,47 für reinen Bruschitzement, pH = 7,02 für Bruschitzement mit 20 Gew.-% Baghdadit-Substitution). Die Baghdadit-Substitution wirkte sich auch auf den Ionengehalt im Kulturmedium und damit auf die Proliferationsaktivität von primären menschlichen Osteoblasten in vitro aus. Die Ergebnisse zeigten zum ersten Mal die Eignung von Baghdadit als reaktives Zementadditiv zur Verbesserung der Röntgenopazität, der mechanischen Eigenschaften und der Zytokompatibilität von Bruschitzementen. Ein zweiter Ansatz (Kapitel 5) zielte auf die Herstellung einkomponentiger Baghdadit-Zemente durch eine Erhöhung der Baghdadit-Löslichkeit ab, um eine Zementreaktion zu initiieren. Dazu wurde das Material durch längere Mahlung von bis zu 24 Stunden mechanisch aktiviert, was sowohl zu einer Abnahme der Partikel- und Kristallitgröße, als auch zu einer teilweisen Amorphisierung von Baghdadit führte. Baghdadit-Zemente wurden durch Zugabe von Wasser bei einem Verhältnis von Pulver zu Flüssigkeit von 2,0 g/ml erhalten. Die maximalen Druckfestigkeiten wurden mit ~2 MPa nach 3 Tagen Aushärtung für ein 24 Stunden gemahlenes Material ermittelt. Massenspektrometrische Messungen mit induktiv gekoppeltem Plasma (ICP-MS) ergaben ein inkongruentes Auflösungsprofil der abgebundenen Zemente mit einer bevorzugten Auflösung von Calcium und einer nur geringen Freisetzung von Zirkonium-Ionen. Die Zementbildung erfolgt unter alkalischen Bedingungen, wobei das ungemahlene Rohpulver während des Abbindens einen pH-Wert von 11.9 aufweist, während ein längeres Mahlen den pH-Wert auf etwa 12.3 erhöht. Abschließend wurden mechanisch aktivierte Baghdadit-Zemente mit anorganischen Silica-Netzwerken kombiniert (Kapitel 6), um dual härtende Zemente mit einer weiteren Verbesserung der mechanischen Eigenschaften zu erhalten. Während eine Modifikation der Zementpasten mit einem TEOS-abgeleiteten Sol bereits die Festigkeit verbessern sollte, wurde angenommen, dass die Verwendung von mehrarmigen Kieselsäure-Precursoren die mechanische Festigkeit aufgrund einer höheren Netzwerkdichte weiter verbessern kann. Darüber hinaus sollte sich auch die Porengröße von Gelen und Zement verringern, so dass die Freisetzungskinetik von inkorporierten Wirkstoffen angepasst werden kann. Zu diesem Zweck wurden mehrarmige Kieselsäure-Precursoren durch die Reaktion verschiedener mehrwertiger Alkohole (Ethylenglykol, Glycerin, Pentaerythrit) mit einem isocyanatmodifizierten Kieselsäure-Precursor synthetisiert. Nach der Hydrolyse unter sauren Bedingungen wurden die Sole mit Baghdadit-Zementpulvern gemischt, um eine gleichzeitige Gelbildung und Zementabbindung zu ermöglichen. Da die Kieselsäuremonomere einen hohen Grad an Verknüpfungsstellen aufweisen, führte dies zu einem verzweigten Netzwerk, das die ausfallenden Zementkristalle durchdrang. Neben geringfügigen Veränderungen in der Zusammensetzung der durch Röntgenbeugung bestimmten kristallinen Phasen, wiesen die neuartigen Komposite verbesserte mechanische Eigenschaften mit einer bis zu 20-fach höheren Druckfestigkeit auf und profitierten außerdem von einer um etwa 50 % geringeren Gesamtporosität als der reine Baghdadit-Referenzzement. Darüber hinaus wurde die anfängliche starke Freisetzung („burst release“) des Modellwirkstoffs Vancomycin durch die zugesetzte Silica-Matrix vollständig gehemmt. Diese Beobachtung wurde durch Prüfung der antimikrobiellen Aktivität mit Staphylococcus aureus durch Messung des Hemmhofs im Agar-Diffusionstest ausgewählter Proben nach 24 h und 48 h verifiziert, wobei die antimikrobielle Wirksamkeit einer konstanten Vancomycin-Freisetzung nachgewiesen werden konnte. Die vorliegende Arbeit zeigte deutlich das hohe Potenzial von Baghdadit Zementformulierungen für medizinische Anwendungen. Die anfänglich schlechten mechanischen Eigenschaften solcher Zemente können durch spezielle Verarbeitungstechniken oder durch die Kombination mit Silicanetzwerken überwunden werden. Die erzielten mechanischen Eigenschaften liegen bei > 10 MPa und die Materialien eignen sich daher für den Knochenersatz unter nicht-lasttragenden Bedingungen. Die hohe intrinsische Röntgenopazität sowie der alkalische pH-Wert während der Aushärtung könnten den Weg für weitere dentale Anwendungen öffnen, z. B. als Wurzelkanal-Zemente oder Füllstoff in Dentalkompositen. Hier ist davon auszugehen, dass der hohe pH-Wert zu antimikrobiellen Eigenschaften solcher Materialien führt, ähnlich wie bei den üblicherweise verwendeten Calciumhydroxiden oder Calciumsilikaten, jedoch in Kombination mit einer intrinsischen Röntgenopazität. Dies würde solche Formulierungen zu einkomponentigen Systemen vereinfachen, die weniger anfällig für Entmischungsprozesse während Transport, Lagerung oder Verarbeitung sind.

Zement

Sol-gel

ddc:610

Cytoplasmic structure and cytochemistry of two heliozoans : Actinosphaerium ei eichhorni and Actinophrys sol /

Ritter, Edward

January 1953

No description available.

Biology

Actinosphaerium eichornia

Actinophrys sol

Mise au point et calibration d'indicateurs de la qualité de sols agricoles du Sud de la Chine

Liu, Li

18 July 2007

Un système d'indicateurs de la qualité des sols a été mis au point pour comparer l'effet des types de gestion des sols dans une région du Sud de la Chine. Ce système synthétise en 5 sous indicateurs et un indicateur général la nature complexe du système sol qui exige la prise en compte simultanée des aspects physique, chimique et biologique. Les méthodes statistiques multivariées sont utilisées ici pour traiter des tableaux de données comportant des dizaines de variables différentes. On a évalué la qualité du sol dans la région de YingDe, (Province de Canton dans le sud de Chine), sur 20 parcelles avec différents type d'utilisation du sol: plantations de thé à différents degrés d'intensification (labour et fertilisation), plantation d'orangers, de canne à sucre, de bambou et de pin. Un ensemble de paramètres mesure l'état physique, chimique, la qualité et quantité de matière organique, l'aggrégation et la morphologie du sol superficiel (0 à 5 cm), ainsi que la diversité et la composition de la communauté de macroinvertébrés du sol. Ces 5 sous-indicateurs (physique, chimique, matière organique, morphologique, biodiversité) sont ensuite regroupés pour former un indicateur général de la qualité du sol (IGQS). Le diagnostic ainsi effectué montre des différences significatives entre la nature des plantations, entre les méthodes de gestion et l'ancienneté des diverses plantations de thé. Les plantations de thé recevant les plus grands apports de résidus organique et de fumier ont des valeurs d' IGQS plus élevées que celles qui reçoivent de l'urée comme apport azoté, La plantation d'orangers fertilisée avec du fumier, de la chaux et et du N, P, K comme fertilisants a la valeur d'IGQS la plus élevée des 20 sites. Comparé aux pratiques recourant à la fertilisation chimiques et à l'utilisation de pesticides chimiques, l'apport de fumiers ou résidus organiques, combiné à la lutte naturelle contre des insects nuisibles améliore beaucoup la qualité du sol ainsi que le recyclage du carbone. Le sous-indicateur de morphologie du sol semble être affecté par le type d'engrais. La matière organique est le facteur le plus important dans la détermination de la qualité du sol. Des apports importants favorisent la diversité, l'abondance et l'activité des invertébrés ; ceux ci produisent plus d'agrégats biogéniques qui peuvent exercer leurs effets à long terme sur les divers services écosystémiques du sol. Le sous indicateur chimique est apparu très sensible aux applications de fumier, d'engrais chimique ou de chaux. A l'inverse, l'indicateur physique est moins fluctuant, la teneur en argile étant la principale variable qui discrimine les sites sur des critères physiques.

Analyse de Composantes principales

macrofaune du sol

morphologie du sol

Settlement structure of eastern colonial India /

Majumdar, Paramita,

January 2007

Dissertation. / Bibliogr. p. 264-268.

Naval weapons systems and the contemporary law of war /

Busuttil, James J.

January 1998

Texte remanié de: Th. Ph. D.--Law--University of Oxford, 1995. / Bibliogr. p. 217-240. Index.