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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Lanthanide and transition metal complexes as building blocks for supramolecular functional materials / Complexes de lanthanides et de métaux de transition utilisés comme building blocks pour matériaux supramoléculaires fonnctionels

Arnedo-Sanchez, Leticia 08 December 2016 (has links)
Cette thèse porte sur les complexes de coordinations basés sur les métaux de transitions et les lanthanides en tant qu'éléments clés pour créer des matériaux fonctionnels. Précisément, des matériaux contenant des propriétés de détection, d'auto assemblage et optique ont été conçus et optimisés. En plus d'une brève introduction sur la photophysique, les gels supramoléculaires et les nanoparticules métalliques, un résumé sur les différents instruments et techniques employés pour ces travaux est inclus. Le chapitre 3 décrit la synthèse et la caractérisation de complexe de lanthanide anionique. Des techniques analytiques, tels que la spectroscopie d'émission ou la cristallographie à rayon X ont été employé pour caractériser ces différents complexes. Dans le chapitre 4, l'étude de complexes métalliques luminescents se focalise sur les complexes de métaux de transition, et plus précisément sur les complexes d'iridium(lll). Une famille de complexes d'iridium(lll) bi-cyclométallés neutres qui montre une intense émission rouge sous photo ou electro excitation est étudié. Le chapitre 5 présente la conception et le développement d'une nouvelle famille de gelators à faible poids moléculaire, basée sur des terpyridines perfluorés.La morphologie ainsi que les propriétés mécaniques et thermodynamique de ces metallogels sont étudiées. Le chapitre 6 présente une nouvelle sonde colorimétrique, composée de nanoparticules d'or fonctionnalisées avec des complexes de Zn aminoterpyridinique via des liaisons thiol est décrite pour la détection de pyrophosphate. / This thesis deals with coordination compounds based on transition metals and lanthanides as key components of functional materials. Besides a brief summary of photophysics, supramolecular gels and metal nanoparticles, an overview of the instruments and techniques employed in this work is included. This thesis is further divided into four chapters focused on optically active metalcomplexes (chapters 3 and 4), stimuli responsive metallogels (chapter 5) and functionalized nanomaterials for sensing applications (chapter 6). In chapter 3, the synthesis and characterization of anionic lanthanide complexes is reported. Analytical techniques, emission spectroscopy and X-ray crystallography were employed to characterize these complexes. ln chapter 4, the study of light emitting metal complexes is extended to transition metal complexes, in particular to iridium (lll) complexes. A family of neutral bis-cyclometallated iridium (lll) complexes that exhibit an intense red emission under photo- or electro-excitation is studied. ln chapter 5 the design and investigation of a new family of low molecular weight gelators based on perfluorinated terpyridines is reported. The morphology and mechanical and thermodynamical properties of these metallogels is studied. Chapter 6 studies the excellent cooperation between coordination compounds and nanomaterials to yield optical sensors. A new colorimetric sensor for pyrophosphate consisting of gold nanoparticles acting as reporting units functionalized with a thiol-modified aminoterpyridine-Zn complex is described.
2

Les complexes Ni-bis (dithiolène) pour des applications en science des matériaux et en biotechnologies / Ni-bis(dithiolene) complexes for application in science materials and biotecnologies

Mebrouk, Kenny 11 October 2016 (has links)
Ce travail démontre l'utilité des propriétés photothermiques dans le proche Infrarouge (NIR) des complexes de nickel-bis(dithiolène) neutres pour des applications en science des matériaux et biotechnologies. Des complexes Ni-bis(dithiolène) neutres hydrophiles et hydrophobes ont été élaborés et leur effet photothermique, sous irradiation laser NIR, a été quantifié pour la première fois. Grâce à cette propriété remarquable et à leur grande stabilité sous irradiation, il a été mis en évidence, que ces complexes pouvaient trouver des applications pour la thérapie photothermique, la libération contrôlée de médicament mais également pour le développement de nanomatériaux photosensibles à un stimulus externe. En effet, cet effet photothermique, sous irradiation laser NIR, permet de détruire des cellules cancéreuses, d'augmenter la perméabilité de nanoparticules polymériques ou de liposomes contenant des principes actifs et de désagréger des métallogels à base de complexes Ni-bis(dithiolène). Enfin, nous avons montré que les complexes [Ni(R2-timdt)2]0 ayant une haute efficacité photothermique sont de nouveaux candidats très prometteurs pour ce type d'applications. / The photothermal properties in the near Infrared (NIR) of neutral nickel-bis(dithiolene) complexes were used in materials science and for the first time in biotechnology. Hydrophilic and hydrophobic neutral Ni-bis(dithiolene) complexes were developped and for the first time, their photothermal effect under NIR laser irradiation was quantified. Thanks to this remarkable property and their high stability under irradiaton, it has been demonstrated that these complexes could find applications to photothermal therapy, controlled drug delivery but also in the developpement of stimuli responsive nanomaterials. Indeed, this photothermal effect, under NIR laser irradiation, allow to destroy malignant cells, increase the permeability of polymeric nanoparticles or liposomes containing active ingredients and disintegrate métallogels based on Ni-bis(dithiolene) cores. Finally, we showed that the [Ni(R2-timdt)2]0 complexes having higher phothothermal activity are very promising new candidates for these applications.
3

A Study of Supramolecular Gels and Self Assembly of Novel Bile Acid Conjugates

Ramesh, K January 2013 (has links) (PDF)
Chapter 1: Functional and Responsive Supramolecular Gels In this chapter ‘supramolecular gels’ derived from small organic molecules with molecular mass of typically less than 2000 daltons are discussed. Representative examples of various low molecular weight gelators based on their natural availability and also divergent functionalities are mentioned (Scheme 1). Scheme 1 Advances in the recent years have been very rapid in the field of supramolecular chemistry of gels giving rise to ‘Tunable responsive gels’. Control of the gel property in a reversible fashion has been the highlight of responsive gels. A few of the gels which are responsive towards various stimuli such as pH, photoirradiation, cations, anions, neutral species have been discussed. Advances and scope of supramolecular gels in various applications have also been mentioned in detail with respective examples. Utilities of supramolecular gels in synthesis of nanostructures, in biology and medicine, enzyme recognition, catalysis etc are discussed. (Scheme 2). Chapter 2: Charge transfer triggered organogels of bis(bile acid)anthracene conjugates and 2,4.7-trinitrofluorenone. In this chapter the study involves the synthesis of a special class of anthracene based steroidal derivatives. The appending of two amphiphilic bile acid units imparts a unique hydrophobic/ hydrophilic balance on the chromophore. The 2,3-didecyloxyanthracene (DDOA) was reported to be a gelator of various organic solvents but none of the three bile acid derivatives of anthracene synthesized was a gelator on its own. It was also observed that dialkoxy (propyl, heptyl, decyl) derivatives of anthracene formed strong charge-transfer gels in the presence of 2,4,7-trinitrofluorenone (TNF). The addition of electron deficient TNF to the steroidal derivatives of anthracene resulted in the gelation of some specific organic solvents. The driving force behind the gel formation resulted from the charge-transfer (CT) interaction between the electron rich anthracene and electron deficient fluorenone. Figure 1. Chemical structures of 2,3-bis(bile acid)anthracenes and TNF (centre), a scanning electronic microscopy image of xerogels prepared from bis(deoxycholyl)anthracene and TNF (left) and a photograph of the gel of bis(deoxycholyl)anthracene and TNF in n-octanol. Thermochromic property (during sol to gel phase transition), absorption and variable temperature fluorescence measurements supported CT interaction. Thermal stability studies and dynamic rheology experiments confirmed that CT gels were thermally most stable and mechanically stronger with equi-molar amounts of the two components. Stiffness values obtained from rheological experiments also suggested that the gels were viscoelastic solids. Chapter 3(A): Tb(III) sensitization in an organogel matrix: Selective luminescence quenching by an aromatic nitro derivative In this chapter the discovery of metallo organogel formation by mixing methanolic solutions of Tb(OAc)3 and sodium deoxycholate (NaDCh) has been explored. Sensitization of Tb3+ was observed by doping micromolar quantities of 2,3-dihydroxynaphthalene (DHN). Mechanical properties of Tb3+-DCh gels were investigated by rheology at three different ratios of Tb3+ and DCh. It was observed that increasing in the Tb3+ to DCh ratio increased the mechanical property of the gels. Time delayed emission spectra were recorded with increasing concentration of DHN and luminescence increase was noticed in a linear fashion. Importance of gel matrix was demonstrated by measuring the Tb3+ luminescence at fixed concentration (5 mM) with/without DHN in the solution and gel media. Figure 2:: Schematic representation of Tb3+ sensitization by DHN. Photograph (right)) of the Tb3++-DCh (5/15 mM) gels with (a) 50 µM DHHN (b) No DHHN under UVV (365 nm). Sensitization by an electron rich chromophore created interest in us to dope relatively electron deficient compounds into the gel matrix for possible quenching off Tb3+-luminescence. Among the electron deficient analytes screened included 1,5-difluro-2,4-diinitrobenzenne (DFDNB)), 2,4 dinitrophenol (DNPPh), p-nitrobenzaldehydde (p-NB), 2,4,6-trinitrootoluene (TTNT) and 22,4,7¬trinitrofluuorenone (TTNF). Microscopy studies such as AFM, TEMM and SEMM revealed highly entangled fibrous network in the morphology of Tb3+--DCh xerogel. Solid state luminescence experiments suggested that sensiitization was observed in the xerogels and extent of sensitization was comparable to that of the gel state. Xerogel soaking studies inferred the strong adherence of the DHNN to the gel fibres. Chapter 3(B): Anion dependent structural, morphological and mechanical features of Ln(III)-Cholate gels In this chapter the counter anion influence on various aspects of hydrogels has been discussed. It has been reported from our laboratory that mixing of aqueous solutions of sodium cholate (15 mM) and various lanthanide acetates (5 mM) followed by sonication resulted in either transparent or transluscent gels. Unsurprisingly we found that aqueous solutions of lanthanide nitrates and lanthanide chlorides also formed hydrogels upon mixing with sodium cholate (Figure 33). Dried films of Tb3++-cholate and Eu3+-cholate gels prepared from their respective nitrate salts displayed birefringent structures under polarizing optical microscopy (POM). But no significant textures of any type were observed in the case of gels prepared from either chloride or acetate salts. Figure 3:: Photographs of the hydrogels prepared by mixing of aqueous solutions of various salts Tb33+ and Eu3+ with sodium cholate solutions. Scanning electron microscopic images exhibited fibrous structures for all the xerogels in the morphology. Atomic force microscopy and transmission electron microscopy measurements revealed helical morphology for xerogels prepared from nitrate salts where as flat tape-like cross linkage was observed for chloride or acetate based xerogels. Anion effect on mechanical properties was significant in the sense that gels prepared from acetate salts displayed highest mechanical strength followed by nitrate based gels which were stronger than that of chloride based gels. Titration of sodium cholate solution with various lanthanide salt solutions gave the direct evidence of thee pH variation as a function of the anions. Figure 4: TEM images of xerogels prepared from gels of nitrate salts of Tb3+ (left) and Eu3+ (right) Chapter 4: Design, synthesis a nd study of bile acid ‘click’ conjugates of perylene bisimides (PBIs) and naphthalene bisimides (NBIs) In this chapter the synthesis of novel bile acid derivatives of perylene and naphthalene bisimides is discussed. The ‘click’ chemistry procedure was used to link bile acid groups on to the chromophores. Azide derivatives of PBIs and NBIs were prepared inn 3 step methods which were coupled to propargyl esters of bile acids by following standard ‘click chemistry’ protocols to achieve the target molecules (Scheme 3). Scheme 3 The studies conducted mainly focused on Cholic acid (CA) conjugates of PBIs and NBIs. Steady state absorption and emission studies of CA conjugates were performed in 10% MeOH/DCM system. POM and fluorescence images showed red emissive aggregates in case of PBI films. TEM measurements revealed uniform aggregate sizes for both the films of PBI(CA)2 and NBI(CA)2. SEM and AFM (Fig 5) studies exhibited spherical aggregates of diameter around 100-200 nm for PBI(CA)2 films where as aggregates of diameter around 500-700 nm were observed for NBI(CA)2 films. Figure 5: AFM images and their corresponding height profiles of PBI films (left) and NBI films (right)

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