Teoria microscÃpica de ondas de spin em nanofios magnÃticos / Microscopic theory of spin waves in magnetic nanowires

Roberto Ferreira Sena Filho

12 January 2007

Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico / O comportamento dinÃmico de spins em materiais magnÃticos à influenciado pela geometria que eles apresentam. AlÃm disso, outro aspecto relevante à a dimensionalidade do sistema. Trabalhos recentes comprovam o interesse do estudo das propriedades magnÃticas em sistemas de baixa dimensionalidade, que à devido em grande parte as aplicaÃÃes tecnolÃgicas, tais como: nanosensores, gravadores magnÃticos de alta densidade, dispositivos magneto-eletrÃnicos, etc. Neste trabalho estudamos a propagaÃÃo de ondas de spin em nanofios magnÃticos cilÃndricos, onde a abordagem à feita utilizando teoria microscÃpica, atravÃs do Hamiltoniano de Heisenberg, em que os spins sÃo considerados fixos nos sÃtios da rede e cuja geometria da seÃÃo transversal dos cilindros à hexagonal. Entre as interaÃÃes magnÃticas estudadas consideramos: a interaÃÃo de troca que pode ser ferromagnÃtica se os primeiros vizinhos dos spins estÃo numa configuraÃÃo paralela, ou antiferromagnÃtica se estiverem antiparelelos; a interaÃÃo Zeeman que à devido ao campo magnÃtico externo aplicado ao sistema; a interaÃÃo de Anisotropia, esta sendo responsÃvel pela direÃÃo de magnetizaÃÃo preferida que diversos sistemas magnÃticos reais apresentam e a interaÃÃo dipolar de natureza magnetostÃtica, presente em todos os materiais. O formalismo leva em consideraÃÃo a dependÃncia espacial dos spins no sistema, onde os operadores de spin do hamiltoniano sÃo escritos em termos de operadores bosÃnicos de criaÃÃo e aniquilaÃÃo atravÃs da RepresentaÃÃo de Holstein-Primakoff. Em seguida, aproveitando-se da simetria translacional em uma direÃÃo devido a periodicidade da rede, realizamos a transformada de Fourier para estes operadores fornecendo um sistema de equaÃÃes matriciais no espaÃo dos vetores de onda. A partir desse sistema de equaÃÃes obtemos vÃrios espectros de excitaÃÃo como: a relaÃÃo de dispersÃo para as ondas de spin, que à o grÃfico onde mostra como a frequÃncia de ondas de spin varia em funÃÃo do vetor de onda e a variaÃÃo da energia do sistema com o campo aplicado. / The dynamical behavior of spins in magnetic materials is affected by its geometry and dimensionality. One can find several new results in the literature exploiting the magnetic properties of low dimension systems with different geometries, since the development of new devices such as: nanosensors, high density magnetic storage, etc., is closely related to new geometries. In this piece of work, we study the propagation of spin waves on cylindrical magnetic nanowires described by a microscopic theory through the Heisenberg Hamiltonian, where we consider the spins fixed at the sites lattice and the transversal section of the wire is hexagonal. Our model takes into account the exchange interaction between the spins that can be ferromagnetic or antifferomagnetic, the interaction of an external field with the spins (Zeeman interaction), anisotropic interactions due to a preferred direction of magnetization, and finally dipole-dipole interactions. The spins are described by boson operators through Holstein-Primakoff representation. The equations of motion for the spins are written in terms of these operators and translational symmetry in a preferential direction allows us to calculate several excitations spectra.

Magnetismo

ondas de spin

ferro/antiferromagnetismo

relaÃÃo de dispersÃo

interaÃÃo de troca

interaÃÃo dipolar

Magnetism

spin waves

ferro/antiferromagnetism

dispersion relation

exchange interaction

dipole-dipole interaction

Formação de sólitons em condensados de Bose-Einstein e em meios ópticos / Formation of solitons in Bose-Einstein condensates and in photorefractive media

Eduardo Georges Khamis

13 October 2010

Diferentes tipos de sólitons têm sido observados em meios ópticos não-lineares, e seus comportamentos individuais descritos pela equação não-linear de Schrödinger e pela equação não-linear de Schrödinger generalizada, em diferentes dimensões e geometrias. Entretando, há situações onde muitos sólitons são gerados formando uma densa rede de sólitons. Nestes casos, é impossível desprezar as interações entre os sólitons e temos que considerar a evolução da estrutura como um todo. A teoria das ondas de choque dispersivas em meios fotorrefrativos e a teoria da difração não-linear de intensos feixes de luz propagando-se em meios fotorrefrativos com um fio refletor incorporado a esse meio foi desenvolvida, e verificamos que está em excelente acordo com nossas simulações numéricas. No caso da formação de sólitons em condensados, fizemos cálculos numéricos realísticos dentro da aproximação de campo médio usando a equação de Gross-Pitaevskii, incluindo também um potencial de confinamento, um potencial móvel e um potencial dipolar. A maioria dos resultados puderam ser comparados com experimentos recentes. / Different kinds of solitons have already been observed in various nonlinear optical media, and their behavior has been explained in the frameworks of such mathematical models as the nonlinear Schrödinger and generalized nonlinear Shrödinger equations for different dimensions and geometries. However, there are situations when many solitons are generated so that they can comprise a dense soliton train. In such situations, it is impossible to neglect interactions between solitons and one has to consider the evolution of the structure as a whole rather than to trace the evolution of each soliton separately. The theory of optical shock waves in photorefractive media and the theory of nonlinear diffraction of light beams propagating in photorefractive media with embedded reflecting wire was developed and agrees very well with our numerical simulations. In the condensate soliton formation case, we did numerical calculations in the mean field approach using the Gross-Pitaevskii equation, adding a trap potential and a moving potential and a potential of the dipole-dipole interaction. The main results were also checked by recent experiments.

condensação de Bose-Einstein

condensados dipolares

força de arrasto

meios fotorrefrativos

ondas de choque

sólitons

Bose-Einstein condensation

dipolar condensates

drag force

photorefractive media

shock waves

solitons

Propriedades magnéticas do nanocompósito (Fe1-xCox)y(MnO)1-y

Rodrigues Sampaio de Araújo, Lincoln

31 January 2009

Made available in DSpace on 2014-06-12T18:01:50Z (GMT). No. of bitstreams: 2 arquivo2431_1.pdf: 3903715 bytes, checksum: f4ecb374f539aa4e3d0c912da52e2836 (MD5) license.txt: 1748 bytes, checksum: 8a4605be74aa9ea9d79846c1fba20a33 (MD5) Previous issue date: 2009 / No presente trabalho foram investigadas propriedades magnéticas dos nanocompósitos ferromagnéticos (Fe1−xCox)y(MnO)1−y, x = 0.4 e 0.6 e y = 0.35, 0.65 e 1, produzidos pela técnica de mecano-síntese. A caracterização estrutural e morfológica das amostras foi feita usando difração de raios x fazendo uso da equação de Scherrer, de gráficos de Williamson-Hall e refinamento Rietveld. Essas análises resultaram em valores de x e y muito próximos dos valores nominais e, dentro da resolução da técnica, não foi detectada a presença de outras fases. As amostras apresentaram valores de tamanho médio dos cristalitos muito próximos (12-14 nm) e valores reduzidos de micro-deformações (1.5% para Fe1−xCox e 0.4% para o MnO). As propriedades magnéticas foram investigadas utilizando várias técnicas de medida (SQUID, magnetometria por extração e magnetometria por amostra vibrante), medidas em um grande intervalo de temperatura T (5-700 K) e em campos magnéticos de até 2 T. A partir dessas medidas foram construídos gráficos de Henkel e curvas de inversão de primeira ordem (FORCs) à temperatura ambiente e em campos de até 1.5 T. Medidas de curvas de histerese foram utilizadas para determinar a dependência da coercividade (HC), da magnetização de saturação (MS) e do campo de exchange-bias (HEB) com T. Procedimentos de medidas de magnetização feitas resfriando a amostra a campo nulo (ZFC) e na presença de campo (FC) foram feitas no intervalo de temperatura 5-300 K para valores pequenos de campo magnético (até 5 mT). Os gráficos de Henkel e FORCs indicaram que na temperatura ambiente as interações magnéticas entre as nanopartículas de Fe1−xCox são predominantemente de origem dipolar e influenciada essencialmente pela quantidade de MnO presente nas amostras. Entretanto, no caso particular da amostra sem MnO, o gráfico de Henkel indicou uma mudança de comportamento acima de 0.25 T passando a interação de dipolar para ser predominantemente de exchange. Acima de 120 K (temperatura de Néel do MnO), as medidas de HC apresentaram um dependência com T do tipo T3/4. Este comportamento é característico de arranjos de partículas tipo Stoner-Wohlfarth orientadas aleatoriamente. Já abaixo de 120 K, HC é fortemente influenciado pela presença de MnO aumentando significativamente com a diminuição da temperatura. Similar crescimento com T foi observado nos valores de HEB o qual é visto apenas em temperaturas abaixo de 120 K. As medidas de MS apresentaram uma dependência tipo Lei de Bloch T3/2 para a amostra sem MnO em todo intervalo de temperatura (5-700 K), enquanto para as demais amostras esse comportamento foi observado para T>120 K. Abaixo dessa temperatura, a adição de MnO produz um aumento em MS. Também foi observado o efeito de exchange-bias para temperaturas inferiores à temperatura de Néel do MnO (120 K), com um significante aumento do campo de exchange-bias com a diminuição da temperatura. Por fim, observamos também um comportamento irreversível nas magnetizações ZFC e FC abaixo de 120 K nas amostras com MnO. Os resultados obtidos abaixo de 120 K foram interpretados como devidos a interações de curto alcance entre as nanopartículas e pela presença de momentos magnéticos não compensados nas interfaces entre partículas

Stoner-Wohlfarth.

Lei de Bloch

Interação Dipolar

Gráficos de Henkel

Exchange-Bias

Magnetização de Saturação

Coercividade

Magnetômetro de Extração

Rietveld

Williamson-Hall

Scherrer

Raios-x

Mecano-síntese

Nanocompósitos

Études des propriétés magnétiques d'assemblées de nanoparticules de Co, FeRh et FeAu / Study of magnetic properties on assemblies of Co, FeRh and FeAu nanoparticles

Hillion, Arnaud

05 October 2012

Les nano-aimants se situent à la limite entre le complexe moléculaire et l’état massif. D’un point de vue fondamental, les effets dus à la taille réduite du système et en particulier les effets de surface sont susceptibles de faire apparaitre de nouvelles propriétés. Ces propriétés peuvent être à l’origine de nouvelles applications dans des domaines comme le stockage d’information magnétique, la catalyse, la biotechnologie, le diagnostic médical ou l’énergie. Dans ce travail, des nanoparticules de 1,5 à 5 nm de diamètre ont été synthétisés par low energy cluster beam deposition (LECBD) puis encapsulées dans différentes matrices. Dans un premier temps, des systèmes modèles à base de nanoparticules de Cobalt fortement diluées dans différentes matrice ont été synthétisés dans l’optique de remonter le plus précisément aux propriétés intrinsèques des nano-aimants. La suite de ce travail a consisté à augmenter la concentration en nanoparticules dans ces échantillons afin de caractériser l’influence des interactions sur le comportement magnétique macroscopique des particules. Enfin, après l’élaboration d’outils permettant de déterminer précisément les propriétés de systèmes modèles, ceux-ci ont été appliqués à des systèmes bimétalliques à fort intérêts théorique et applicatif (FeRh et FeAu). Nous avons montré que, après recuit sous ultra-vide, les nanoparticules d’alliage FeRh en matrice de carbone présentent une transition de phase A1 vers B2 sans trace de pollution ni de coalescence. Cette transition a été mise en évidence structurellement par microscopie électronique à transmission haute résolution et magnétiquement par magnétométrie à SQUID et dichroïsme magnétique de rayons X. / Nanomagnets are at the limit between a molecular complex and the bulk state. From a fundamental standpoint, the effects due to the small size of the system and particularly the increasing surface to volume ratio are likely to bring about new properties. Nanoparticles have found numerous applications in areas such as magnetic information storage, catalysis, biotechnology, medical diagnostics and energy. In this work, nanoparticles of 1.5 to 5 nm in diameter were synthesized by low energy cluster beam deposition (LECBD) and encapsulated in different matrices. As a first step, model systems based on cobalt nanoparticles strongly diluted in different matrices were fabricated in order to study more precisely the intrinsic properties of the nanomagnets. The continuation of this work consisted in increasing the concentration of nanoparticles in order to characterize the influence of interactions on the macroscopic magnetic behavior of the particles. Finally, after the development of tools to accurately determine the properties of model systems, these tools have been applied to bimetallic systems of significant theoretical and applicative interest (FeRh and FeAu). In particular, this work shows that after annealing under ultrahigh vacuum, the FeRh alloy nanoparticles in a carbon matrix show a phase transition A1 to B2 with no trace of pollution or coalescence. This transition has been demonstrated structurally by high resolution transmission electron microscopy (HRTEM) and magnetically by SQUID magnetometry and X-ray magnetic dichroism (XMCD).

Nanoparticule

Anisotropie magnétique

Nanoalliage

Interactions dipolaires

Mise en ordre chimique

Fer-rhodium

METHR

SQUID

XMCD

Nanoparticle

Magnetic anisotropy

Nanoalloy

Dipolar interactions

Chemical ordering

Iron-rhodium

HRTEM

SQUID

XMCD

538.3

Dynamique d'aimantation ultra-rapide de nanoparticules magnétiques / Ultrafast magnetization dynamics in magnetic nanoparticles

Klughertz, Guillaume

28 January 2016

L’objectif de cette thèse est d’explorer analytiquement et numériquement la dynamique d’aimantation de nanoparticules magnétiques. Nous montrons qu’il est possible de contrôler efficacement le retournement d’aimantation d’une nanoparticule à l’aide d’une excitation autorésonante. Cette étude révèle que l’amortissement de Gilbert et la température altèrent l’efficacité de ce procédé, tandis que les interactions dipolaires peuvent le faciliter. Les propriétés stationnaires d’une monocouche de nanoparticules sont également étudiées en reproduisant numériquement des courbes ZFC. Nous observons ainsi qu’un désordre structurel ne modifie pas la température de blocage. Enfin, nous étudions le comportement d’un ensemble de nanoparticules en interaction dans un fluide à l’aide de simulations de dynamique moléculaire. Nous retrouvons les configurations à l’équilibre en forme de chaînes et d’anneaux, puis nous examinons les aspects dynamiques en mettant en évidence l’existence d’ondes de spins. / The goal of this thesis is to explore analytically and numerically the magnetization dynamics in magnetic nanoparticles. Firstly, we study the Néel dynamics of fixed. We show that one can efficiently control the magnetization reversal of a nanoparticle by using a chirped excitation (autoresonance). This study reveals that the Gilbert damping and the temperature alter the efficiency of the reversal, while dipolar interactions can improve it. The stationary properties of a monolayer of nanoparticles are then examined by computing ZFC curves with a Monte Carlo method. We observe that structural disorder has no effect on the blocking temperature. Finally, we investigate the behavior of an ensemble of interacting nanoparticles moving in a fluid with a molecular dynamics approach. Our numerical simulations reproduce the usual chain and ring-like equilibrium configurations. We then study the dynamics of these structures and show the existence of super-spin waves.

Nanoparticules

Autorésonance

Magnétisme

Interaction dipolaire

Landau-Lifshitz

ZFC

Dynamique non-linéaire

Hyperthermie

Nanoparticles

Autoresonance

Magnetism

Dipolar interaction

Landau-Lifshitz

ZFC

Non-linear dynamics

Hyperthermia

539.1

Effet d'un champ électrique sur la structure et la dynamique de suspensions colloïdales confinées : étude numérique par simulation / Effect of an electric field on the structure and dynamics of confined suspensions of colloidal particles : numerical study by simulation

Chung, Salomon

09 March 2017

Le travail présenté dans ce mémoire s'inscrit dans le cadre des études théoriques dedispersions colloïdales, ou suspensions de particules dont la taille varie du nanomètre aumicromètre. Dans ces milieux, les interactions entre les particules peuvent être moduléesen jouant par exemple sur leur composition superficielle, de même qu'il est possible demodifier l'environnement des colloïdes comme le solvant, le confinement du mélange et/ouéventuellement un champ extérieur pour influer sur leurs propriétés thermodynamiques.La modélisation-simulation permet alors de tester sur ordinateurcertains jeux de paramètres pouvant produire le phénomène souhaité,avant son éventuelle réalisation expérimentale.Ce travail se concentre sur cette étape préliminaire en considérant un mélange desphères dures dipolaires et apolaires, placé dans milieu confiné etsoumis à un champ électrique (magnétique pour des ferrocolloïdes).Dans une première étape, nous nous intéressons aux états d'équilibres du mélange,en étudiant par simulations Monte-Carlo un mélange symétrique en composition,non-additif et confiné entre deux murs éloignés.En comparant les résultats pour différentes densités et directions du champ extérieur,nous retrouvons certaines propriétés déjà observées pour des systèmes similaires.Nous commençons par la situation de référence sans champ où à faible densité,le mélange est monophasique et l'espèce dipolaire fuit les murs.L'augmentation de la densité favorise alors la séparation de phase et dans la phase richeen dipôles, l'espèce dipolaire mouille les murs.L'application d'un champ perpendiculaire aux murs favorise la stabilité du mélange malgrésa densité élevée et la non-additivité entre les deux espèces.En faisant croître ce champ, nous observons une structuration de l'espèce dipolaire,notamment près des murs ainsi que la formation de <<colonnes>> de dipôles dansla direction du champ.Enfin un champ parallèle aux murs provoque la démixtion du mélange dèsla plus faible densité considérée. Les dipôles fuient à nouveau les murs etnous observons de longues chaînes intriquées de dipôles.Dans une seconde étape, nous nous intéressons à la dynamique d'un mélange asymétrique encomposition et soumis à un champ. Nous combinons dans cette étudedes simulations Monte-Carlo et de dynamique moléculaire (Langevin).Le mélange est placé dans une boîte présentant un goulot d'étranglement afinde simuler un pore ouvert en contact avec un réservoir de particules,à travers une interface explicite. Le champ, perpendiculaire aux murs, sera appliquéau niveau du goulot d'étranglement afin d'y attirer les dipôles.Nous considérons d'abord un mélange peu dense afin que le cycle remplissage / vidagedu milieu confiné soit réversible. Dans le but d'accélérer ces cycles,l'intensité du champ est progressivement augmentée.Le remplissage en dipôles est effectivement plus rapide mais sa composition satureprématurément.Nous lançons ensuite une série de cycles avec des coefficients de frottement deLangevin croissants mais relativement petits afin de limiterla durée des simulations. Nous notons alors que les temps de remplissage oude vidage du pore varient linéairement en fonction du coefficient de frottementce qui nous permet d'estimer par extrapolation la durée d'un cycle pour les colloïdes.En jouant sur la non-additivité et la densité,nous parvenons à rendre les cycles irréversibles : selon l'application envisagée,l’irréversibilité pourra s'avérer utile ou devra être évitée.Nous terminons ce chapitre en estimant la variation de la durée des cycles avecla taille des colloïdes. Un modèle d'interaction entre colloïdes constitués pardes centres répulsifs en loi de puissance, uniformément répartis dans une sphèrenous permet de prévoir, moyennant des hypothèses sur les lois d'échelle,la variation des durées de remplissage ou de vidage pour des tailles allantde petits colloïdes aux dimensions quasi-moléculaires / The work presented in this dissertation is in the framework of the theoretical study ofcolloidal dispersions, i.e. suspensions of particles whose size varies from nanometers tomicrometers. In such a medium, the interactions between particles can be tuned through their surfacecomposition for instance. One may also modify the environment of the colloids:a specific solvent can be combined with confinement of the mixture andan external can field applied on it in order to tune its thermodynamic properties.Once a model of a physical system is defined, computer simulation can be used to explorea range of parameters to check if the sought phenomenon occurs, before carrying outany real experiment. This work focuses on this preliminary step: our model consists ofa mixture of dipolar and apolar hard spheres in a confined medium and subjected to anelectric field (or a magnetic one for ferrocolloids).In a first step, we use Monte Carlo simulation to study equilibrium states ofa binary mixture confined between distant walls,with symmetric composition of the two species having non additive interactions.By comparing the results of different densities and field directions,we recover some properties already observed for similar systems.In the reference state where the field is turned off, the mixture at low density is stableand we notice that the dipoles stay away from the walls.A denser mixture separates into two phases and in the dipoles rich one,the dipolar particles now wet the walls.When the mixture is subjected to a field perpendicular to the walls,it remains stable in spite of its high density and non additivity between unlike particles.Increasing the field induces a structuring of the dipolar component near the wallsand we observe column shaped clusters of dipoles along the direction of the field.Finally, the application of a field parallel to the walls separates the mixture,even at the lowest density we chose. Dipoles stay away from the walls and we observeentangled dipoles chains.In a second step we explore the dynamics of a mixture with asymmetric composition andsubjected to a field. We combine Monte Carlo and molecular dynamic (Langevin) simulationsin this study. The mixture is confined in a box with a bottleneck channel in order tosimulate an open pore exchanging particles with a reservoir through an explicit interface.The field which is perpendicular to the walls is applied in the bottleneck regionto attract dipoles there.We first consider a low density mixture such that the filling / emptying cycleof the pore is reversible.The intensity of the field is then increased to speed up the cycles.As expected, the dipoles fill the pore faster then. However their composition saturatesunder the maximum value found for a lower field.A series of cycles was performed with increasing Langevin damping coefficients but stilllow enough to reduced the computation time.We then notice that the filling or emptying duration is a linear function ofthe damping coefficient. The duration of a cycle for colloids is then obtained fromextrapolation.Combining non additivity and high enough density, we are able to make an irreversible cycle:depending on the application sought for, this irreversibility can be useful ormust be avoided.This chapter ends with the assessment of the duration of a cycle with respect tothe size of colloids. We use an interaction model between colloidal particles wherea colloid is uniformly made of repulsive centers following a power law.With some scaling law hypotheses, the duration of a filling or an emptying is estimated forsmall colloids down to nearly molecular dimensions

Structure et Dynamique

Simulation Monte-Carlo

Dynamique moléculaire

Interactions dipolaires

Colloïdes confinés

Champ extérieur

Structure and Dynamics

Monte Carlo Simulation

Molecular Dynamics

Dipolar Interaction

Confined colloids

External dield

Liquid crystal NMR: director dynamics and small solute molecules

Kantola, A. M. (Anu M.)

03 December 2009

Abstract The subjects of this thesis are the dynamics of liquid crystals in external electric and magnetic fields as well as the magnetic properties of small molecules, both studied by liquid crystal nuclear magnetic resonance (LC NMR) spectroscopy. Director dynamics of a liquid crystal 5CB in external magnetic and electric fields was studied by deuterium NMR and spectral simulations. A new theory was developed to explain the peculiar oscillations observed in the experimental spectra collected during fast director rotation. A spectral simulation program based on this new theory was developed and the outcome of the simulations was compared with the experimental results to verify the tenability of the theory. In the studies on the properties of small solute molecules, LC NMR was utilised to obtain information about anisotropic nuclear magnetic interaction tensors. The nuclear magnetic shielding tensor was studied in methyl halides, the spin-spin coupling tensor in methyl mercury halides and the quadrupolar coupling tensor in deuterated benzenes. The effects of small-amplitude molecular motions and solvent interactions on the obtained parameters were considered in each case. Finally, the experimental results were compared to the corresponding computational NMR parameters calculated in parallel with the experimental work.

NMR spectroscopy

anisotropic nuclear magnetic properties

deuterium NMR

dipolar coupling tensor

director dynamics in external fields

liquid crystals

nuclear magnetic shielding tensor

quadrupolar coupling tensor

spin-spin coupling tensor

Synthèse d’analogues carbonés de la Ribavirine pour leurs activités antivirales / Synthesis of carbonated analogs of Ribavirin for their antiviral activities

Cosson, Fanny

24 April 2014

La Ribavirine est un analogue nucléosidique de la guanosine constitué d'un ribose et d'un noyau triazole. Cet antiviral, synthétisé en 1970, possède une activité contre différents virus comme le virus respiratoire syncytial chez les enfants en détresse respiratoire, les virus des hépatites B et E, ainsi que contre certains cancers et leucémies. Elle est surtout connue pour son utilisation dans le traitement de l'hépatite C, en combinaison avec l'Interféron. Cependant, l'efficacité de cette thérapie est limitée à certains génotypes du virus et les effets secondaires résultants sont nombreux. C'est pourquoi il est nécessaire de trouver d'autres analogues actifs contre l'hépatite C et moins toxiques afin d'offrir un traitement aux 170 millions d'individus atteints de cette maladie chronique et pouvant évoluer vers des cirrhoses et des cancers du foie. Par une méthodologie d'alcynylglycosylation médiée à l'indium suivie d'une cycloaddition 1,3 dipolaire, des C-nucléosides analogues de la Ribavirine ont été synthétisés. L'un deux, SRO-91, a montré une activité antivirale comparable à celle de la Ribavirine vis-à-vis de l'ARN polymérase du virus de l'hépatite C. L'objectif de cette thèse est donc de synthétiser d'autres C-nucléosides analogues sur le modèle de SRO-91. Des modifications ont été effectuées autant sur le ribose que sur le noyau triazole. Concernant les transformations du ribose, nous nous sommes intéressés à la position C2', notamment en introduisant une quaternisation avec différents groupements (CH3, CF3, F …) ou bien en désoxygénant cette position. Cette thèse décrit les différentes stratégies explorées pour la synthèse de plusieurs de ces C-nucléosides dont les activités antivirales seront étudiées ultérieurement. / Ribavirin is a nucleosidic analogue of guanosine composed of a ribose and a triazole ring. This antiviral compound, synthesized in 1970, exhibits an activity against a broad-range of viruses such as respiratory syncytial virus in respiratory distress children, hepatitis B and E viruses as well as some cancers and leukemia. It is especially known for its use in hepatitis C treatment in combination with Interferon. However, the efficiency of this therapy is limited to a few genotypes of the virus and leads to numerous side effects. Therefore, finding new efficient and less toxic analogs is necessary to treat the 170 million individuals that are chronically infected and at risk of developing cirrhosis and liver cancer. Thanks to a methodology of indium mediated alcynylglycosylation followed by a 1,3-dipolar cycloaddition, C-nucleosides analogs of Ribavirin have been synthesized. Among them, SRO-91, showed a comparable activity to Ribavirin towards hepatitis C virus ARN polymerase. This thesis' objective is to synthesize other C-nucleosides analogs based on SRO-91 model. Modifications have been made on the triazole ring as well as on the ribose. In regards to the ribose transformations, we have been interested into the C2' position, in particular by introducing a quaternisation with different moieties (CH3, CF3, F …) or by deoxygenating this position. This thesis describes the different strategies explored for the synthesis of some of these C-nucleosides whose antiviral activities will be studied later.

Ribavirine

C-nucléosides

Cycloaddition 1-3 dipolaire

Glycosylation

Hépatite C

Synthèse multi-étapes

Ribavirin

C-nucleosides

1-3 dipolar cycloaddition

Glycosylation

Hepatitis C

Multi-steps synthesis

Isoxazolinas e isoxazóis como reais candidatos na preparação de cristais líquidos polares

Rosa, Rafaela Raupp da

January 2018

A presente tese descreve a síntese e caracterização de 10 novas séries de moléculas na forma de banana contendo os anéis isoxazolina e isoxazol como reais candidatos na preparação de cristais líquidos polares. Foram avaliados parâmetros estruturais tais como o tipo de função conectora do centro curvado com os braços mesogênicos, a natureza do heterociclo e a sua posição relativa ao núcleo. A síntese dos compostos contou com a metodologia de preparação do anel isoxazolina, a cicloadição [3+2] 1,3-dipolar entre alcenos e óxidos de nitrila, os quais foram gerados pelas oximas preparadas a partir de aldeídos alifáticos e aromáticos. Todas as isoxazolinas foram oxidadas aos seus respectivos isoxazóis utilizando dióxido de manganês. Foram utilizadas ainda reações de alquilação, redução, desproteção, hidrogenólise, olefinação, adição de aminas à aldeídos e esterificação. Todas as moléculas sintetizadas foram caracterizadas por RMN de 1H e 13C, além de serem observadas por MOLP para determinação dos seus pontos de fusão. As moléculas que apresentaram comportamento mesomórfico foram ainda caracterizadas por DSC, XRD e voltagem triangular. No capítulo 3 é descrita a síntese dos isoftalatos 19a-b, 20a-b, 26a-b e 27a-b. No subgrupo dos Isoftalatos derivados de isoxazóis e isoxazolinas 3,5-diarilsubstituídos foi possível a síntese apenas do composto 11d que não apresentou comportamento líquido cristalino No subgrupo dos isoftalatos derivados de isoxazóis e isoxazolinas 3-alquil-5-arilsubstituídos as isoxazolinas 19a-b não apresentaram comportamento líquido-cristalino. Foram encontradas mesofases para os compostos 20a-b que ainda não foram determinadas com as técnicas disponíveis. Os isoxazóis 20a-b apresentaram uma provável Blue Phase logo após o resfriamento do isotrópico, que rapidamente se converte em uma provável mesofase monotrópica ferroelétrica com texturas e padrão de XRD peculiares até então não observada na literatura. No subgrupo dos isoftalatos derivados de isoxazóis e isoxazolinas 3-aril-5-alquilsubstituídos 26a-b e 27a-b não foi observado comportamento líquido-cristalino. O capítulo 4 descreve a síntese das isoftaliminas 35, 36, 44, 45, 50a-b, 51a-b, 56a-d, 57a-d, 63a-b e 64a-b. No subgrupo dos isoxazóis e isoxazolinas 3,5-diarilsubstituídos 35, 36, 44 e 45 foram observadas as mesofases B7 e B1 apenas com a inversão da orientação do anel isoxazol como braçomesogênicos dos compostos finais, enquanto que as isoxazolinas não apresentaram mesofases. A mesofase B7 do composto 36 apresentou comportamento antiferroelétrico enquanto que a mesofase B1 do composto 45 não mostrou resposta frente ao campo elétrico aplicado, além disso, o XRD mostrou que tal mesofase colunar B1 pode ser uma fase 3D modulada. No subgrupo das isoxazolinas e isoxazóis 3-alquil-5-arilsubstituídos 50a-b e 51a-b foram observadas fases do tipo DC para as isoxazolinas 50a-b, a qual deve ser confirmada por FFTEM. No subgrupo dos materiais 3-aril-5-alquilsubstituídos 56a-d, 57a-d, 63a-b e 64a-b foram observadas mesofases SmXPF para os compostos 56b-d. Os isoxazóis 57a-d apresentaram texturas similares, porém não apresentaram mesofase, mas os mesmos seguem o mesmo padrão de difração das isoxazolinas do capítulo 3. Apenas a isoxazolina 63b dos compostos perfluorados apresentou mesofase No capítulo 5 é descrita a síntese de ésteres não-simétricos contendo os heterociclos isoxazol e isoxazolinas como núcleo central 71a-f, 82, 83, 84 e 85. No primeiro subgrupo todos os ésteres cinâmicos 71a-f apresentaram comportamento mesomórfico com grandes faixas de temperaturas nas mesofases. No segundo subgrupo as isoxazolinas 82 e 83 apresentaram comportamento completamente distinto, onde só foi observada a formação de uma mesofase SmB para o composto que tem a posição éster localizada na direção do nitrogênio do heterociclo. Já os isoxazóis 84 e 85 deste subgrupo apresentaram as mesofases N e SmC em temperaturas bastante similares, porém, a observação desses materiais em uma cela alinhada revelou o crescimento de filamentos na transição N-SmC apenas para o composto 85, o qual também possui a porção éster na direção do nitrogênio do anel isoxazol. O capítulo 6 traz a síntese dos ésteres e iminas simétricos 88, 89, 94 e 95 utilizando os heterociclos como núcleo central, os quais apresentaram mesofases SmC e N. Além disso, o diéster 89 derivado de isoxazol apresentou a mesma característica que o composto 85 do capítulo 5, apresentando uma transição N-SmC com crescimento de filamentos perpendiculares à direção de alinhamento da amostra dentro da cela, podendo estar relacionada à uma mesofase NTB. / This thesis describe the synthesis and characterization of 10 new series of banana shaped molecules containing the isoxazoline and isoxazole rings as real players for preparation of polar liquid crystals. It was evaluate structural parameters such as the type of connecting function of the bent core with the mesogenic arms, the heterocycle nature and its position relative to the central core. The synthesis of the compounds included the methodology of preparation of the isoxazoline ring, the [3 + 2] 1,3-dipolar cycloaddition between alkenes and nitrile oxides, which were generated by the oximes prepared from aliphatic and aromatic aldehydes. Furthermore, all isoxazolines were oxidized to its respective isoxazoles using manganese dioxide. Besides the described methodologies, alkylation, reduction, deprotection, hydrogenolysis, olefination, addition of amines to the aldehydes and esterification reactions were used. All the synthesized molecules were characterized by 1H NMR and 13C NMR, and also observed by POM for determination of its melting points. The molecules previously analyzed by POM that showed mesomorphic behavior were characterized by DSC, XRD and triangular voltage still. Chapter 3 describes the synthesis of isophthalates 19a-b, 20a-b, 26a-b e 27a-b. In the subgroup of isophthalates derived from isoxazoles and isoxazolines 3,5-diarylsubstituted it was possible to synthesize only compound 11d which did not show liquid crystalline behavior In the subgroup of the isophthalates derived from isoxazoles and isoxazolines 3-alkyl-5-arylsubstituted the isoxazolines 19a-b did not show liquid crystalline behavior. It was found mesophases for compounds 20a-b that still could not be determined with the available techniques. The isoxazoles 20a-b presented a probable Blue Phase soon after cooling from the isotropic which quickly converts into a probable ferroelectric monotropic mesophase with peculiar textures and pattern of XRD until then not observed in the literature. In the subgroup of the isophthalates of isoxazoles and isoxazolines 3-aryl-5-alkylsubstituted 26a-b and 27a-b no liquid crystalline behavior was observed. Chapter 4 describes the synthesis of isophthalimines 35, 36, 44, 45, 50a-b, 51a-b, 56a-d, 57a-d, 63a-b and 64a-b. In the subgroup of the isoxazoles 3,5-diarylsubstituted 35, 36, 44 and 45 the B7 and B1 mesophases were observed only with the inversion of the isoxazole ring orientation as mesogenic arm of thefinal compounds whereas the isoxazolines did not present mesophases. The B7 mesophase of the compound 36 showed antiferroelectric switching while the B1 mesophase of the compound 45 showed no response to the applied electric field, in addition, the XRD showed that such B1 columnar mesophase could be a 3D modulated phase one. In the subgroup of 3-alkyl-5-arylsubstituted isoxazolines and isoxazoles 50a-b and 51a-b DC phases were observed for isoxazolines 50a-b which should be confirmed by FFTEM. The SmXPF mesophase were observed for componds 56b-d in the subgroup of 3-aryl-5-alkylsubstituted materials 56a-d, 57a-d, 63a-b e 64a-b. The isoxazoles 57a-d presented similar textures although did not showed mesophase, but they follow the same diffraction pattern of the chapter 3 isoxazolines. Only the isoxazoline 63b of the perfluorinated compounds showed mesophase In chapter 5 is described the synthesis of non-symmetric esters containing isoxazol and isoxazolines heterocycles as central core 71a-f, 82, 83, 84 e 85. In the first subgroup all the cinnamic esters 71a-f showed mesomorphic behavior with large mesophases temperature ranges. In the second subgroup the isoxazolines 82 and 83 showed completely different behavior which only was observed the SmB mesophase formation for compound having the ester position towards the heterocycle nitrogen. Furthermore, the isoxazoles 84 and 85 of this subgroup showed the N and SmC mesophases at very similar temperatures, however, the observation of these materials in an aligned cell revealed the filamentary growth in the N-SmC transition only for compound 85, which also has the ester moiety in the direction of the isoxazole ring nitrogen. Chapter 6 brings forward the synthesis of symmetrical esters and imines 88, 89, 94 and 95 using the heterocycles as the central cores, which showed SmC and N mesophases. Moreover, the isoxazole derived diester 89 showed the same feature as compound 85 of Chapter 5, exhibiting a N-SmC transition with filament growth perpendicular to the rubbing direction of the cell which may be related to a NTB mesophase.

Cristais líquidos

Isoxazol

Isoxazolinas

Cicloadição

Bent-core liquid crystals

[3+2] 1,3-dipolar cycloaddition

Isoxazolinine

Isoxazole

Ferroelectric liquid crystals

Polar liquid crystals

Dynamique d'aimantation dans les assemblées d'agrégats ferromagnétiques : effets des interactions / Dynamics of magnetization in the assemblies of ferromagnetic aggregates : effect of the interactions

Brinis, Drifa

12 July 2017

Dans notre travail, nous avons utilisé la technique Monte Carlo afin de simuler l'effet des interactions dipolaires sur le retournement de l'aimantation d'une assemblée de nanoparticules ferromagnétiques. Dans notre modèle, nous avons considéré des nanoparticules à anisotropie uniaxiale, plus précisément le Cobalt. Avec la condition KV/kBT >> 1, le moment magnétique de chaque nanoparticule est figé dans ses positions d'équilibre et il ne peut pas fluctuer autour. Nous avons choisi de faire notre étude par le biais de la susceptibilité alternative car elle apporte l'avantage de pouvoir faire l'étude sur une large gamme de fréquences sans avoir à changer de technique de mesure puisque le temps de mesure est égale à l'inverse de la fréquence du champ appliqué. Nous avons étudié douze types d'assemblées chacune diffère de l'autre soit par sa forme, la distribution spatiale des nanoparticules ou la distribution des axes d'anisotropie. Et nous avons discerné l'influence de chaque paramètre sur l'effet des interactions dipolaires sur le retournement de l'aimantation. / In our work, we used Monte Carlo technique to simulate the effect of dipolar interactions on the magnetization reversal of a ferromagnetic nanoparticles assembly. In our model, we considered nanoparticles with uniaxial anisotropy and specifically the Cobalt. With the condition KV/kBT >> 1, the magnetic moment of each nanoparticle is fixed in its equilibrium positions and it can not fluctuate around. We chose to our investigation the ac susceptibility because it provides the advantage of making the study with a wide frequency range without changing measurement technique, because the measurement time is equal to the inverse of the frequency of the alternating magnetic field applied. We studied twelve types of assemblies each one differs from the other by some properties : The shape of the assembly, the spatial distribution of the nanoparticles or the distribution of the anisotropy axes. And we discerned the influence of each of theses parameters on the effect of dipolar interactions on the magnetization reversal.

Nanoparticules

Ferromagnétisme

Cobalt

Interactions dipolaires

Susceptibilité alternative

Technique Monte Carlo

Nanoparticles

Ferromagnetism

Cobalt

Dipolar interactions

Ac Susceptibility

Monte Carlo Technique

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