Investigations Of Open-Framework Metal Phosphates, Phosphites And Phosphite-Oxalate Materials

Mandal, Sukhendu

08 1900

Open-framework inorganic materials constitute an important area of study in materials chemistry, because of their potential applications in areas such as sorption and catalysis. After the discovery of nanoporous aluminium phosphates by Flanigen et al in 1982, there has been a tremendous growth in the area of porous solids. Most of them are based upon oxygen containing materials especially phosphates, and they exhibit fascinating architectures with unusual bonding and coordination environment. Besides metal phosphates and phosphites, inorganic-organic hybrids constitute an important family of open-framework structures. In this thesis, results of investigations of a variety of open-framework metal phosphates, metal phosphites, as well as a new family of phosphite-oxalates are presented. More importantly, studies directed towards the synthesis and understanding of the magnetic properties of various transition metal phosphates, phosphites, phosphite-oxalates and the upconversion behavior of uranium phosphites are discussed at length. In Chapter 1 of the thesis an overview of inorganic open-framework materials is presented. In Chapter 2 and 3, the synthesis, structure of open-framework zinc (Part A of both Chapters) and synthesis, structure and magnetic properties of open-framework iron (Part B of both Chapters) are presented. Some of these compounds show unusual structure and interesting properties. For example, two-dimensional iron phosphate exhibits ferrimagnetism whereas three-dimensional iron phosphate with SBU-6 and SBU-2 is antiferromagnetic. The three-dimensional iron phosphite exhibits small polarization at low field. In Chapter 4, we present a new family of organically templated hybrid materials synthesized by partially substituting the phosphite by the oxalate ion in manganese, iron and cobalt phosphites. These exhibit a wide range of structures in which the oxalates play an unusual dual role. Some of these compounds show interesting magnetic properties. For example, manganese phosphite-oxalate shows magnetic polarizations on application of high field at low temperatures and iron phosphite-oxalate exhibit ferromagnetism at very low temperature. While a large number of organically templated transition and main-group element phosphites have been synthesized, research on lanthanide and actinide phosphites has been rare. Most of the reported open-framework phosphate and phosphite compounds of uranium possess uranium in +6 oxidation state. The possibility of building open architectures of uranium phosphites has been explored in Chapter 5. The results have been rewarding and both layered and three-dimensional structures have been prepared. Two of them contain uranium in +4 state and exhibit upconversion behavior.

Phosphorous Compounds

Phosphites

Phosphates

Open Framework Materials

Zeolites

Zinc Phophates

Iron Phosphates

Iron Phosphites

Zinc Phosphites

Metal Phosphites

Uranium Phosphites

Phosphite-oxalate

Inorganic Chemistry

Treatment of tea industry effluents using a combined adsorption and advanced oxidation process.

Otieno, Dennis Ouma.

January 2014

M. Tech. Chemical Engineering. / Discusses the general objective of this research is to study the application of a combined advanced oxidation and adsorption process, with a view to developing a novel technique for the treatment of tea industry effluents prior to discharge into receiving water bodies. The specific objectives of the research are: a) To tailor natural zeolite physico-chemical properties in attempt to enhance its adsorptive performance ; b) To evaluate the decolourization efficiency of functionalized zeolite in tea industry effluent treatment. c) To evaluate the effect of the following operational parameters: pH, initial concentration,temperature and the sorbent mass, on the removal of colour in tea industry effluent. d) To apply adsorption and advanced oxidation independently and to combine the two into one process.

Dissertations, Academic -- South Africa.

Tea trade -- Waste disposal.

Zeolites -- Absorption and adsorption.

Waste disposal in rivers, lakes, etc.

Effects of hydrating additives on materials used in desulphurisation

Maina, Paul.

January 2011

M. Tech. Mechanical engineering. / Acid deposition is caused by the emission of acidic gases, for example, nitrogen oxides and sulfur dioxide. Nitrogen oxide emissions can be controlled by the proper selection of equipment and operating conditions. Sulfur dioxide on the other hand, can be cleaned by means of procombustion, combustion or post-combustion techniques; the latter being the most effective. The objective of this study is to find suitable additives which will augment the reactivity of lime towards FGD (flue gas desulfurization), while at the same time being easily available at a low price. Zeolite based sorbents yielded the highest reactivity, and all additives, except iron waste, had pozzolanic materials as their main reactive compounds.

Dissertations, Academic -- South Africa.

Acid rain -- Environmental aspects.

Pollution prevention.

Sulfur dioxide -- Environmental aspects.

Zeolites -- Absorption and adsorption.

Simultaneous production of methanol and dimethylether from synthesis gas / Ταυτόχρονη παραγωγή μεθανόλης και διμεθυλαιθέρα από αέριο σύνθεσης

Akarmazyan, Siranush

16 January 2015

Dimethylether is a non-toxic liquefied gas, which is projected to become one of the fundamental chemical feedstock in the future. Dimethylether can be produced from syngas via a two-step (indirect) process that involves synthesis of methanol by hydrogenation of CO/CO2 over a copper based catalyst and subsequent dehydration of methanol to DME over an acidic catalyst. Alternatively, DME can be produced in an one-step (direct) process using a hybrid (bifunctional) catalyst system that permits both methanol synthesis and dehydration in a single process unit. In the present research work the production of DME has been studied by applying both the indirect and direct processes. Firstly, the methanol synthesis and methanol dehydration reactions involved in the indirect process have been studied separately. Afterwards, these two reactions have been combined in the direct DME production process by using a hybrid catalyst comprising a methanol synthesis and a methanol dehydration component. The methanol synthesis by CO2 hydrogenation has been investigated over commercial and home-made CuO/ZnO/Al2O3 catalysts with the aim to identify optimal experimental conditions (CO2:H2 ratio, flow rate, temperature) that could be then used in the direct conversion of CO2/H2 mixtures into methanol/DME. Obtained results reveal that the conversion of CO2 and the yields of reaction products (CH3OH and CO) increase when the concentration of H2 in the feed and the reaction contact time are increased. It was found that both Cu+/Cu0 species are important for the conversion of CO2/H2, although the presence of Cuo seems to be more important for selectivity/yield of methanol. The stability of the CuO/ZnO/Al2O3 catalyst has been also investigated. It was observed that the main reason for the deactivation of catalyst is the water produced via the methanol synthesis and reverse water gas shift reactions. However, the catalytic activity and products selectivity were recovered slowly to their original levels after applying a regeneration procedure, indicating that deactivation by water is reversible. The dehydration of methanol to dimethylether (DME) has been investigated over a range of catalysts including alumina, silica-alumina and zeolites with different physicochemical characteristics. The effects of temperature and the presence of water vapour in the feed on catalytic performance have been studied in detail. The reactivity of catalysts has been evaluated by determining the reaction rates per gram of catalyst per acid site (total: Brönsted+Lewis) and per Brönsted/Lewis mole ratio. In addition, the reaction mechanism has been investigated over a selected catalyst, with the use of transient-MS and in situ DRIFTS techniques. Results obtained for alumina catalysts show that the catalytic activity and selectivity are determined to a large extent by the textural properties, degree of crystallinity and total amount of acid sites of catalysts. In particular, the methanol conversion curve shifts toward lower reaction temperatures with an increase of specific surface area. However, the enhanced catalytic activity of high-SSA samples cannot be attributed solely to the higher amount of surface acid sites, implying that the reaction rate is determined to a large extent from other parameters, such as textural properties and degree of crystallinity. Results of mechanistic studies indicate that interaction of methanol with the Al2O3 surface results in the formation of two kinds of methoxy groups of different adsorption strength. Evidence is provided that DME evolution is associated with methoxy species that are weakly adsorbed on the Al2O3 surface, whereas more strongly held species decompose to yield surface formate and, eventually, CH4 and CO in the gas phase. Results obtained over zeolite catalysts show that catalytic performance depends on the topology of zeolites due to differences in micropore structure and Si/Al ratio as well as on the number, strength and nature of active acid sites. The activity of zeolite catalysts for the methanol dehydration to DME follows the order ZSM-5 > Ferrierite > Mordenite ~ Beta ~ USY > H-Y. The strong Brönsted acid sites of ZSM-5 zeolites with relatively high Si/Al ratio represent the most active sites in methanol dehydration to DME reaction. However, the overall reactivity of the ZSM-5 zeolites is also affected by the balance of the Brönsted to Lewis acid sites. The activity of Beta and USY zeolites is determined by both Lewis and Brönsted acid sites. The moderate/low reactivity of Ferrierite, Mordenite and H-Y zeolite are determined by the abundant Brönsted acid sites of relatively weak/moderate strength. The direct CO2 hydrogenation to methanol/DME has been investigated using admixed catalysts comprising a methanol synthesis (commercial copper based catalyst: CZA1) and a methanol dehydration component (different alumia/zeolite catalysts: γ-Al2O3, ZSM-5, W/γ-Al2O3, USY(6), Ferrierite(10)). It has been revealed that the conversion of CO2 is always lower than the corresponding equilibrium values predicted by thermodynamics, indicating operation in the kinetic regime. The nature of the methanol dehydration component of the admixed catalysts was found to be important for both CO2 conversion and methanol dehydration. In particular, DME selectivity/yield, depends strongly on the nature of acid sites (both Lewis and Brönsted) as well as the textural (meso/macro porosity) and topological properties of methanol dehydration component of the admixed catalysts. The yield of DME obtained at a temperature of 250oC decreases following the order CZA1/ZSM-5, CZA1/USY(6) > CZA1/Ferrierite(10) > CZA1/ W/γ-Al2O3 >> CZA1/γ-Al2O3. The long-term stability experiments conducted over selected bifunctional catalytic systems revealed that the catalysts deactivate with time-on-stream, mainly due to water produced via methanol synthesis, methanol dehydration and reverse water gas shift reactions. In case of the CZA1/ZSM-5 admixed catalyst the catalytic activity and products selectivity were almost recovered after regeneration indicating that deactivation by water is reversible. / --

Carbon dioxide

Dimethyl ether

Methanol

Alumina

Zeolites

Copper-based catalysts

Bifunctional catalysts

662.669 2

Διοξείδιο του άνθρακα

Μεθανόλη

Οξείδιο του αργιλίου

Ζεόλιθοι

Ρόφηση και διάχυση αερίων σε ζεολίθους με χρήση τεχνικών μοριακής προσομοίωσης

Κροκιδάς, Παναγιώτης

15 January 2009

Το αντικείμενο της έρευνας της παρούσας εργασίας είναι η ατομιστική προσομοίωση της ρόφησης αερίων μέσα σε ζεολιθους, καθώς και η επίδραση της θερμοκρασίας στην δομή του και την ροφητική του ικανότητα. Από τους σχεδόν 200 συνθετικούς και φυσικούς ζεολίθους, επιλέχθηκε ο φωγιασίτης, ο οποίος αποτελεί ένα πολλά υποσχόμενο υλικό με πλήθος εφαρμογών, όπως η ρόφηση, η αποθήκευση και ο διαχωρισμός αερίων, αλλά και σε τομείς όπως η κατάλυση και η δημιουργία συσκευών ανίχνευσης αερίων. Στα πλαίσια της παρούσας εργασίας εξετάστηκε η αλληλεπίδραση των κατιόντων της δομής με μόρια διαφόρων αερίων, τα οποία ροφούνται στον φωγιασίτη, καθώς και ο βαθμός στον οποίο αυτή η αλληλεπίδραση επηρεάζει την ποσότητα του αερίου που μπορεί να ροφηθεί. Πιο συγκεκριμένα, αρχικά ανακατασκευάστηκε στον υπολογιστή η δομή της μοναδιαίας κυψελίδας του φωγιασίτη και έγινε μοντελοποίηση της ρόφησης μορίων CO2 και Η2 μέσα στην ανακατασκευασμένη κυψελίδα ως συνάρτηση της θερμοκρασίας, του λόγου Si/Al στον κρύσταλλο, και της σύστασής του σε μη πλεγματικά κατιόντα. Στο τμήμα αυτό έγινε η θεώρηση ότι η δομή μένει αμετάβλητη με την είσοδο των μορίων του αερίου. Στην συνέχεια μελετήθηκε η επίδραση της θερμοκρασίας στην θέση των ιόντων, των ατόμων του πλέγματος και στο μέγεθος της μοναδιαίας κυψελίδας, καθώς και η περαιτέρω επίδραση που φέρουν αυτές οι αλλαγές στη ρόφηση. Τα αποτελέσματα της ρόφησης συγκρίθηκαν με πειραματικά δεδομένα. Τέλος, μοντελοποιήθηκε η διάχυση του CO2 μέσα στον φωγιασίτη και υπολογίστηκε ο συντελεστής διαχύσεως σε διάφορες θερμοκρασίες. Τα αποτελέσματα της μοντελοποίησης συγκρίθηκαν με αντίστοιχα αποτελέσματα από πειραματική μέτρηση του συντελεστή διαχύσεως του αερίου στον φωγιασίτη. Η αναπαράσταση του υλικού και των φαινομένων της ρόφησης έγινε σε ατομιστικό επίπεδο, με την χρήση μεθόδων Monte Carlo, ενώ η μοντελοποίηση της συμπεριφοράς του φωγιασίτη με τις μεταβολές της θερμοκρασίας πραγματοποιήθηκε χρησιμοποιώντας τη μέθοδο της προσομοιωμένης ανόπτησης. Η διάχυση μοντελοποιήθηκε με την μέθοδο της μοριακής δυναμικής. / -

Ζεόλιθοι

Ρόφηση

Φωγιασίτης

Προσομοίωση

Μοριακή δυναμική

Ανόπτηση

Ζεόλιθος

Μοντελοποίηση

541.33

Zeolites

Adsorption

Faujasite

Simulation

Monte carlo

Molecular dynamics

Annealing

Zeolite

Modelling

Atomistic simulation

Investigation of Zeolite Nucleation and Growth Using NMR Spectroscopy

Rivas Cardona, Alejandra

2011 December 1900

Zeolite nucleation and growth is a complex problem that has been widely investigated but still not completely understood. However, a full understanding of this process is required in order to develop predictive models for the rational design and control of the zeolite properties. The primary objective of this dissertation is to determine the strength of organicinorganic interactions (i.e., the adsorption Gibbs energy) in transparent synthesis mixtures using PFG NMR spectroscopy, in order to provide more information for a better understanding of zeolite nucleation and growth. Three main tasks were conducted in this work. The first was an investigation of the organocation role in precursor mixtures of silicalite-1, where the Gibbs energy of the organocation adsorption on the silica particles was determined at 25 degrees C. The findings showed that small changes in the adsorption Gibbs energy resulting from the differences in the molecular structure of the organocations lead to large changes in both the stability of the precursor particles and the rate of silicalite-1 formation. The second was an in situ PFG NMR investigation of silicalite-1 synthesis mixtures, where the adsorption Gibbs energy was determined at 25 degrees C and 70 degrees C, and the time evolution of silicalite-1 was monitored at synthesis conditions. The findings showed similar adsorption Gibbs energies at 25 degrees C and 70 degrees C. Also, a maximum in the organocation diffusion coefficients was observed during the time evolution of silicalite-1, which was associated with the exothermicendothermic transition occurring during the synthesis. The third was a systematic investigation of silicalite-1 precursor mixtures with varying degrees of dilution, where the effect of the composition of the mixtures on their conductivity, pH and particle size distribution (PSD) was studied. The results showed that conductivity, pH, and PSD are strongly affected by the mixture composition. The main conclusion of this research is that the strength of the organic-inorganic interactions in transparent synthesis mixtures can be determined from experimental data of the organocation self-diffusion coefficients obtained with PFG NMR spectroscopy. The outcome information of this research should contribute to the development of a more detailed molecular-level description of the zeolite nucleation and growth, which is expected to allow the emergence of a new generation of materials by design.

zeolite nucleation and growth

organic-inorganic interactions

adsorption Gibbs energy

in situ PFG NMR

high silica zeolites

silicalite-1

zeolite A

Synthesis of zeolites and their application as soil amendments to increase crop yield and potentially act as controlled release fertilizers

Jakkula, Vijay S.

January 2005

Zeolites have been used in agriculture since the 1960s, due to the effectiveness of these crystalline microporous solids as soil amendments for plant growth, their cation exchange capacity (CEC) and slow-release fertilizer properties. Most work on slow-release fertilizers has focused on natural Clinoptilolite, Phillipsite and Chabazite. The aim of this study was to synthesize zeolites, study their effectiveness as soil amendments and their ability to act as controlled release fertilizers to decrease nitrate leaching. Nitrate pollution of groundwater is a major agro-environmental concern. The zeolites Phillipsite and Linde-type F were synthesized from aluminosilicate gels; ion exchanged to introduce ammonium and characterized using X-ray diffraction (XRD), X-ray fluorescence (XRF), Thermo-gravimetric analysis (TGA) and Scanning electron microscopy (SEM) techniques, both before and after ion exchange. Ammoniumexchanged Phillipsites (natural and synthetic), ammonium-exchanged synthetic Linde-type F (the zeolite having highest affinity towards ammonium) and ammonium exchanged Phillipsites (high crystalline and high aluminium) were compared with conventional NPK fertilizer.Three glasshouse experiments were performed to study the effects of zeolite-amended soils on maize growth. Ion exchanged synthetic and natural Phillipsites were first used as soil amendments (w/w 2, 4, 8% zeolite to soil). Synthetic Phillipsite, at 2% loading, resulted in the most significant improvement in both plant growth and phased ammonium release. The synthetic ammonium-exchanged zeolites Phillipsite and Linde-type F (at w/w 1, 2, 4%) were then compared; synthetic Phillipsite, at 2% loading, again resulted in the most significant plant growth response with an increase (≥15%) in shoot dry weight and a decrease (≥30%) in nitrate leaching. Experiments using unexchanged synthetic Phillipsite (at w/w 2%), but with added NPK fertilizer, showed increased plant growth and decreased nitrate leaching, compared with parallel experiments containing unexchanged synthetic Linde-type F (at w/w 2%) and a conventional fertilizer amended soil. This revealed the beneficial effect of Phillipsite for soil amendment, even without ion exchange to the ammonium form. To study the physico-chemical properties affecting the release of ammonium from the Phillipsite framework; high crystalline/low aluminium and low crystalline/high aluminium forms were synthesized and ion exchanged. Both forms were introduced as soil amendments (at w/w 1 and 2%) and experiments showed that the lower zeolite crystallinity decreased cation exchange and therefore decreased nitrate leaching. Experimental results from the glasshouse experiments and cation exchange capacity (CEC) experiments suggest that synthetic Phillipsite, at lower loadings (1 and 2% w/w zeolite to soil) have most potential as soil amendments for both plant growth and controlled-release applications. This conclusion is supported by soil leachate and shoots dry weight analysis. Furthermore, Phillipsite, synthesized in a low crystalline and low ammonium form, may be an even better soil amendment for controlled release of ammonium, which will thereby further decrease nitrate pollution.

668.62

Thermal transport properties of nanoporous zeolite thin films

Hudiono, Yeny C.

07 July 2008

This thesis has addressed several of the fundamental challenges in correlating the structure thermal transport properties of complex nanoporous polycrystalline zeolite materials. Two types of zeolite materials, MFI and LTA, were employed in order to investigate the effects of temperature and both the framework and non-framework cations on the thermal conductivity of zeolite. The thermal conductivity values of both materials were measured using a well intergrown zeolite film 3-omega method. The thermal transport mechanisms in these materials were investigated by separately analyzing the contributions of different phonon scattering processes. This thesis represents our progress towards a robust framework for understanding and predicting thermal transport properties of zeolite materials and complex crystals in general. Furthermore, the important roles of boundary and defect scattering, as illustrated in this thesis, also imply that the thermal conductivity of zeolite materials can be tuned by exploiting not only the composition but also the pore structure. In addition, a non-equilibrium molecular dynamics simulation with external force was developed and employed to predict the thermal conductivity of materials. It has shown that this method can accurately predict the thermal conductivity of simple materials, such as argon and quartz; however, it failed to predict the thermal conductivity of complex materials, such as zeolite. This thesis presents possible factors that can explain the phenomena and future recommendations to elucidate this issue.

3-omega

Hydrothermal synthesis

Phonon

Thermal conductivity

Thermal transport

Zeolite

Radiative transfer

Transport theory

Zeolites

Thin films

Nanostructured materials

Porous materials

S?ntese de ze?litas e argilas ?cidas pilarizadas a partir de mat?rias primas naturais

Bieseki, Lindiane

20 July 2012

Made available in DSpace on 2014-12-17T14:07:03Z (GMT). No. of bitstreams: 1 LidianeB_DISSERT.pdf: 4154722 bytes, checksum: 488f09116e9123d31a90be2e32d3f613 (MD5) Previous issue date: 2012-07-20 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Structural changes in waste for zeolites synthesis are subject of many studies carried out in the synthesis of molecular sieves. These materials are named molecular sieves because they have well defined pore sizes and they have the capacity of select molecules by its size. In this work, it was studied the synthesis processes of two types of molecular sieves: pillared acid clays using as starting material one natural montmorillonite clay and the synthesis of zeolites from a silico-aluminous residue. This residue is a byproduct of the extraction of lithium -spodumene. The preparation of pillared acid clays was performed in two steps: 1? acid treatment of clay samples (time and temperature studies) and 2?pilarization of them with Al13 (Keggin ion). The temperature and acid concentration affect the removal of cations in the structure and porosity of the material obtained. The analysis of X-ray diffraction (XRD) and infrared spectroscopy (IR), showed that increasing the severity of the acid treatment compromises the structural material. Also the pore size distribution is approximately uniform. Despite presenting a structural disorganization, the samples were pillared. As evidenced by XRD increasing the basal spacing, specific area and uniform porosity by adsorption of N2. Regarding the microporous molecular sieves were synthesized zeolites A and NaP1 from a silico-aluminous residue, a byproduct of extracting lithium. The temperature and time of agitation during the synthesis were the most important factors for obtaining zeolite A. The aging of the gel and the highest crystallization time promoted the formation of zeolite NaP1 using a Si / Al ratio = 3.2 / Modifica??es estruturais de res?duos para s?ntese de ze?litas ? tema de muitos estudos desenvolvidos na ?rea de s?ntese de peneiras moleculares. Estes materiais s?o chamados de peneiras moleculares por possu?rem tamanho de poros bem definido e por terem a capacidade de selecionar as mol?culas pelo tamanho. Neste trabalho foram estudados os processos de s?ntese de dois tipos de peneiras moleculares: argilas ?cidas pilarizadas, utilizando como mat?ria prima natural uma argila montmorilonita, e tamb?m a s?ntese de ze?litas a partir de um res?duo s?lico-aluminoso subproduto da extra??o de L?tio do -espodum?nio. A prepara??o de argilas ?cidas pilarizadas foi realizada em duas etapas: 1? tratamento ?cido das amostras de argila (estudos de tempo e temperatura) e 2? pilariza??o das mesmas com Al13 (?on de keggin). As vari?veis temperatura e concentra??o do ?cido influenciaram na retirada de c?tions estruturais e na porosidade do material obtido. A partir das an?lises de difra??o de raios-X (DRX) e espectroscopia de infravermelho (IV), observou-se que o aumento da severidade do tratamento ?cido compromete a organiza??o estrutural do material. Tamb?m a distribui??o no tamanho de poros fica menos uniforme. Mesmo apresentando menor organiza??o estrutural, as amostras foram pilarizadas. Foi comprovado por DRX o aumento do espa?amento basal e por adsor??o de N2 o aumento da ?rea espec?fica e uniformiza??o dos poros. Com rela??o ?s peneiras moleculares microporosas, foram sintetizadas ze?litas A e NaP1 a partir de um res?duo s?lico-aluminoso, subproduto da extra??o de L?tio. A temperatura e o tempo de agita??o durante o processo de s?ntese s?o par?metros importantes para a obten??o da ze?lita A. O envelhecimento do gel e o maior tempo de cristaliza??o promoveram a forma??o da ze?lita NaP1, utilizando uma rela??o Si/Al = 3,2

ze?litas

argilas

tratamento ?cido

pilariza??o e res?duo s?lico-aluminoso

zeolites

clays

acid treatment

pillaring and silicoaluminate residue

CNPQ::CIENCIAS EXATAS E DA TERRA

Pesquisa e desenvovimento de novos materiais microporosos e mesoporosos para uso em ressonância magnética nuclear por imagem como agentes de contraste /

Paula, Alex Silva.

January 2011

Orientador: José Geraldo Nery / Banca: Ricardo Reis Soares / Banca: Iêda Aparecida Pastrê Fertonani / Resumo: Como em qualquer método de imagem utilizado em medicina, foi desenvolvido para a ressonância magnética por imagem (MRI) um agente de contraste que pudesse realçar apenas as lesões e não os tecidos normais, possibilitando desta maneira não apenas a localização do tecido afetado, mas propiciando também um diagnóstico mais preciso e diferenciado. Os agentes de contraste geralmente utilizados em MRI afetam seletivamente os tempos de relaxamento T1 dos diferentes tecidos, embora os tempos de T2 podem também ser alterados pela introdução desses agentes. Este trabalho caracteriza-se pela busca de novos compostos micro ou mesoporosos que possam ser utilizados como agentes de contraste para MRI. A principal diferença entre os compostos estudados e os quelatos de gadolínio empregados atualmente em MRI está na usa composição química e estado físico. Estes novos compostos são zeólitos, cuja principal característica é sua estrutura altamente cristalina formada por canais e cavidades bem definidas, canais e cavidades onde ocorre a imobilização de íons metálicos. As sínteses destes novos materiais microporosos foram realizadas utilizando-se templates orgânicos derivados da decahidroquinolina, 2,6 dimetil piperidina, 3,5 dimetil piperidina e espartênio. Antes de serem utilizados em diferentes condições de química sol-gel os novos templates sintetizados foram caracterizados por ressonância magnética nuclear ( 13 C e 1 H), espectrometria de massa e por difração de raios-X de monocristais. Os novos materiais microporosos foram sintetizados em diferentes condições de química sol- gel e os principais produtos obtidos foram novos vanadiosilicatos. Os novos materiais microporosos foram caracterizados pelas técnicas de difração de raios-X, ressonância magnética do estado sólido dos núcleos 29 Si, 51 V e 13 C, microscopia eletrônica de varredura, espalhamento Raman... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: As in any other imaging method used in modern medicine, Magnetic Resonance Imaging (MRI) requires a contrast media. The contrast media can enhance the contrast of the damage tissue in comparison to the normal ones, facilitating the location of the damage area and providing information for a precise diagnosis. Most of the contrast media commonly used in MRI, affect the relaxation time T1 of the different tissues, and in some case also the relaxation time T2. The main goal of this work was the searching for new microporous or mesoporous materials that could replace the traditional contrast media based on chelates of gadolinium. These microporous materials, different form the chelates of gadolinium, are made up by well defined system of nanoporous and nanochanels where the metal are located. In order to synthesized these new microporous materials, a new family of structure directing agents (SDAs) derivatives of decahydroquinolinium; 2,6 dimethyl piperidine; 3,5 dimethyl piperidine and (S)-Sparteinium were synthesized. The as made new templates were fully characterized by 13 C, 1 H-NMR, ES- Mass Spectrometry, and single crystal X-Ray diffraction. Different sol gel chemistry conditions were studied and explored throughout this study using the new SDAs, however the most out sanding results were obtained for vanadosilicates. The new vanadosilicates were fully characterized by 13 C, 29 Si and 51 V NMR-MAS (Nuclear Magnetic Resonance-Magic Angle Spinning), Scanning electronic microscopy (SEM), Raman scattering and Thermogravimetric analysis (TGA). Some of the vanadosilicates synthesized with SDAs (1, 2, 3, 5, 7, 8, 9, 10, 11) were found to be isomorphous to the Titanosilicate ETS-10 and to the Vanadosilicate AM-6, which open up the possibility of their use as catalyst for shape selectivity oxidative calalysis. Althoug, Vanadosilicates prepared with N-Etil-Sparteinium are stil under... (Complete abstract click electronic access below) / Mestre

Física nuclear.

Ressonancia magnetica nuclear.

Imagem de ressonância magnética.

Zeolites. eng

Contrast agents. eng

Structure directing agent. eng

Nuclear magnetic resonance. eng

Vanadium. eng

Gadolinium. eng