Magnetic Exchange Coupling in 3d and 4f Complexes Using Radical Tetrazine-based Frameworks

Alves Lemes, Maykon

11 September 2019

High symmetry and low coordinated single-ion lanthanides have been a successful recipe to design high performance single molecule magnets (SMMs). However, enhancement of the magnetic properties of polymetallic SMMs is an important challenge. Therefore, this thesis describes the use of redox non-innocent tetrazine-based ligands and d- and f- elements in order to fine-tune the electronic structure of the resulting compounds to promote strong exchange interactions between the spin carriers. As reported in the literature, radical-bridged ligands represent a potential strategy to improve the magnetic properties of polymetallic SMMs. Thus, chapter one introduces principal concepts that govern the physical properties of metal complexes containing radical-bridged ligands. Chapter two describes the magnetic properties of a unique air-stable tetratopic radical- bridged bpymtz•− (3,6-bis(2-pyrimidyl)-1,2,4,5-tetrazine) templating four Ni(II) metal ions. The dc magnetic studies along with DFT calculations reveal strong ferromagnetic exchange coupling between the Ni− bpymtz•− of J = 98 cm-1 with a spin ground state of S = 9/2. Chapter three describes the application of another tetrazine-based ligand, bpytz (3,6- bis(3,5-dimethylpyrazolyl)-1,2,4,5-tetrazine) to probe magnetic exchange interactions in a {CoII4} supramolecular square. The modelling of dc susceptibility data shows significant Co(II) - bpytz•− magnetic coupling of J = - 118 cm-1 for a spin ground state ST = 4. While the non-reduced analog displays weak Co(II)-Co(II) exchange of J = - 0.64 cm-1 (S = 0 ground state). Additionally, the radical-radical magnetic exchange contribution was probed with an analogous {ZnII4} square, where a J = -15.9 cm-1 was found. Chapter four extends the application of reduced tetrazine ligands to lanthanide systems. Here we demonstrate that the systematic reduction of the ligand with cobaltacene (CoCp2) led to the formation of a strongly coupled bpytz•−−bpytz•− bridging ligand. Magnetic measurements combined with ab initio calculations confirm unprecedented intramolecular pi-dimerization preventing strong magnetic Dy(III)−bpytz•− communication. Chapter five describes the synthesis and characterization of {LnIII4} (Ln = Dy, Gd and Lu) where the Ln(III) ions are bridged by peripheral bpytz•−. The oxophilicity and high coordination numbers preferred by lanthanides ions lead to the formation of a cubane core made up of metal ions bridged by hydroxy ligands (M3-OH−). Experimental and computational studies were applied to verify the nature and strength of the magnetic interactions between the spin carriers.

Tetrazine-based complexes

Radical-based complexes

Molecular magnetism

Magnetic exchange

THE SYNTHESIS AND EVALUATION OF SMALL MOLECULE INHIBITORS AS MOLECULAR IMAGING AGENTS FOR UROKINASE PLASMINOGEN ACTIVATOR

Albu, Silvia + A

06 January 2015

Urokinase-type plasminogen activator (uPA) protein is a serine protease of the trypsin family that is overexpressed by tumors cells seeking to metastasize. Molecular imaging methods using molecular imaging probe designed to target uPA could provide a method for the detection of aggressive cancers and monitoring response to treatment. Four classes of high affinity uPA inhibitors, three which were reversible and one irreversible, were used as platforms to develop radiolabeled probes for uPA. Based on structure-activity relationships, lead compounds were modified to allow for the introduction of a radiohalogen (radioiodine) at different sites in the corresponding molecules. Suitable synthetic strategies were developed to create libraries of iodinated phenyl guanidine, peptide, naphtamidine and phosphonate derivatives. For the phenylguanidines colorimetric assays showed the product had micromolar affinity while for the peptide derivatives low nanomolar affinity for the iodinated analogue was observed (1.4 nM to 2.53 nM). Unfortunately quantitative biodistribution studies showed low tumour uptake (<0.5% ID/g). More promising results were obtained for the irreversible iodinated phosphonated derivative which had an affinity of 2.1 nM. This reagent showed 1.95% ID/g tumour uptake and lower blood uptake in vivo which demonstrates advantageous properties over existing uPA probes in terms of tumour-to-blood ratios. A complementary development was also achieved in that the first example of a 125I-labelled tetrazine was prepared. This new reagent can be used in pre-targeted strategies that utilize bioorthogonal coupling between stained trans-cyclooctene (TCO) and tetrazines. The product was prepared using a concomitant oxidation iodo-destannylation reaction and the product isolated in 80% radiochemical yield. The reaction with transcycloctene proceeded rapidly to produce various isomers which were fully characterized through NMR analysis of the non-radioactive analogues. / Thesis / Doctor of Philosophy (PhD)

Urokinase-type plasminogen activator

Molecular imaging probes

125I-labelled tetrazine

Fluorous Supports and Oxidants for Radiochemistry, Tetrazine Synthesis, and Hydrogen Sulfide Processing

Dzandzi, James P. K.

11 1900

A new class of fluorous materials was developed to create a hybrid solid-solution phase strategy for the expedient preparation of 125I-labelled compounds, without the need of HPLC purification. The system is referred to as a hybrid platform in that it combines solution phase labelling and fluorous solid-phase purification in one step as opposed to two separate individual processes. Initial success was achieved by treating fluorous stannanes, coated on fluorous silica, with [125I]NaI and chloramine-T (CAT) as the oxidant, where the desired nonfluorous radiolabelled products were isolated in minutes in biocompatible solutions in high purity (>98%) free from excess starting material and unreacted radioiodine. This platform was initially developed through a model system based on a fluorous benzoic acid derivative. The platform was then validated with simple aryl and heterocyclic derivatives, known radiopharmaceuticals including meta-iodobenzylguanidine (MIBG) and iododeoxyuridine (IUdR), and a new agent with high affinity for prostate-specific membrane antigen (PSMA). The limitation of the platform was the presence of non-radioactive UV impurities which came from the oxidants employed. To resolve this issue a new class of fluorous oxidants based on chloramine-T (CAT, F-CAT) were prepared. F-CAT, was prepared in 87% overall synthesis yield from commercially available starting materials and found to be effective in labelling arylstannanes and proteins with [125I]NaI. The utility of the oxidant was further demonstrated in successfully preparing a radioiodinated tetrazine (125I-Tz) through a concomitant oxidation-halodemetallation reaction. 125I-Tz can be used to label biomolecules through bioorthogonal coupling reactions with prosthetic groups containing strained alkenes including norbornene and trans-cyclooctene (TCO). The reported hybrid platform labelling approach is readily accessible and requires minimal radiochemistry expertise and should therefore find widespread use. It is also noteworthy that a second generation of the fluorous oxidant, F-CAT2, was also prepared with the aim of obtaining an oxidant which has a higher solubility in perfluorinated solvents. Application of F-CAT2 for oxidation of hydrogen sulfide to elemental sulphur in a fluorous-aqueous biphasic system was demonstrated. This approach offers a new metal-free approach to scrubbing sour gas wells and demonstrates that the fluorous oxidants developed here have utility beyond radiochemistry. / Thesis / Doctor of Philosophy (PhD)

Radioimmunothérapie préciblée de la carcinose péritonéale par chimie bioorthogonale / Peritoneal carcinosis radioimmunotherapy by bioorthogonal chemistry

Rondon, Aurelie

11 December 2018

La radioimmunothérapie (RIT) est une stratégie théranostique associant la spécificité de reconnaissance d’anticorps monoclonaux (AcMs) (ou de formes dérivées) vis-à-vis des antigènes tumoraux et les propriétés des radionucléides (imagerie/thérapie). L’efficacité de la RIT est cependant limitée sur les tumeurs solides à cause de la lente diffusion des AcMs et de leur longue demi-vie plasmatique. Les approches de radioimmunothérapie préciblée (PRIT), qui dissocient l’injection des AcMs de celle des radioligands constituent des alternatives pertinentes envisagées pour diminuer l’hématotoxicité et améliorer l’efficacité thérapeutique de la RIT classique. Nous avons ainsi travaillé sur une stratégie de PRIT utilisant la chimie bioorthogonale par interaction entre un trans-cyclooctène (TCO) et une tétrazine (TZ), à la fois pour l’imagerie et pour la thérapie de la carcinose péritonéale (CP) d’origine colorectale (modèle A431-CEA-Luc/ AcM 35A7). Dans un premier temps nous avons évalué à la fois in vitro et in vivo dans le modèle de CP ainsi que dans un modèle sous-cutané de cancer colorectal (modèle HT29/ AcM Ts29.2) l’effet des modifications apportées aux AcMs. Nous avons ainsi montré que les modifications d’AcMs influencent l’interaction entre les TCO et la TZ, sans pour autant altérer leur immunoréactivité. L’ajout d’espaceurs PEGylés (polyéthylène glycol) entre les AcMs et les TCO induit une diminution significative de l’interaction TCO/TZ. De plus, nous avons montré que les TCO sont sujets à l’isomérisation en cis-cyclooctènes, inactifs vis-à-vis de la TZ, et que la PEGylation aggrave ce phénomène. Ces études ont ainsi montré à la fois que les AcMs-TCO ne contenant pas d’espaceur PEGylé étaient les plus favorables pour le préciblage mais également, qu’il était primordial de contrôler le taux d’isomérisation des TCO avant greffage aux AcMs pour ne pas altérer l’interaction vis-à-vis des TZ. Dans un second temps nous avons effectué avec succès la preuve de concept de l’imagerie SPECT de la CP par préciblage entre l’AcM 35A7-TCO et la TZ-PEG4-DOTA-177Lu (i.e. TZ-1). Un ciblage spécifique des tumeurs péritonéales a ainsi été obtenu, avec un très bon contraste. L’étude de PRIT effectuée avec cette même sonde TZ-1 a cependant échoué à mettre en évidence une amélioration des médianes de survie ou un ralentissement de la croissance tumorale, nous amenant ainsi à reconsidérer la structure de la TZ-1. Trois autres TZ (i.e. TZ-2-4) ont donc été évaluées par la suite, en biodistribution, afin de déterminer la meilleure pour la PRIT de la CP. Ainsi, la TZ-3, qui comporte un espaceur PEGylé plus long que la TZ-1, s’est avérée être la plus favorable dans ce type de stratégie et sera prochainement utilisée pour une nouvelle étude de thérapie. En conclusion, ces travaux de thèse ont permis de démontrer la faisabilité du concept de préciblage par chimie bioorthogonale utilisant l’interaction TCO/TZ pour l’imagerie de tumeurs disséminées dans la cavité péritonéale. Cette stratégie reste néanmoins compliquée à mettre en place du fait de l’instabilité des TCO et des problèmes de réactivité de certaines sondes TZ et nécessite encore de nombreuses optimisations avant de pouvoir envisager une application thérapeutique. / Radioimmunotherapy (RIT) consists to combine the specificity of monoclonal antibodies (mAbs), or mAbs derived structures, towards tumor antigens with the imaging/therapy properties of radionuclides, representing thus a theranostic strategy. RIT efficiency in solid tumors is limited due to both mAbs slow diffusion and long blood clearance. Pretargeted radioimmunotherapy (PRIT) appears as an alternative to circumvent hematotoxicity and improve therapeutic efficacy. We have thus worked on PRIT based on bioorthogonal click chemistry relying on the interaction between trans-cyclooctene (TCO) and tetrazine (TZ). Application of this strategy was made for imaging and therapy of peritoneal carcinomatosis (PC) from colorectal origin (A431-CEA-Luc model/ 35A7 mAb). We have first assessed the influence of mAbs modifications, in vitro and in vivo experiments made on both PC model and subcutaneous colorectal cancer (HT29 model/ Ts29.2 mAb). We thus demonstrated that mAbs modifications influence the interaction between TCO and TZ without decreasing their antigen binding capacities. Indeed, addition of PEGylated (polyethylene glycol) linkers between mAbs and TCO induced a significant decrease of TCO/TZ interaction. In addition, we also demonstrated that TCO moieties undergo severe isomerization to cis-cyclooctene (CCO) moieties which are unreactive towards TZ. Addition of PEG linkers also increased the isomerization rate of TCO to CCO. Our results highlighted that a non PEGylated mAb should represent the best structure for PRIT to avoid isomerization and consequently to control the ratio of CCO before mAbs coupling to maximize TCO/TZ interaction. In disseminated PC, we have made for the first time the proof of concept of SPECT imaging between 35A7-TCO and TZ-PEG4-DOTA-177Lu (i.e. TZ-1). We indeed obtained a specific signal corresponding to PC tumors with a very good contrast. However, a PRIT experiment using TZ-1 did not allow observing neither improvement of median survivals nor tumor growth slow down. Those disappointing results led to reconsider the TZ-1 structure and evaluate three new TZ (i.e. TZ-2-4). The TZ-3, bearing a longer PEG linker than TZ-1, appears as the most appropriate for PRIT studies and will soon be considered for a new therapy experiment. In conclusion, we demonstrated the possibility to do pretargeted imaging of peritoneal disseminated tumors using bioorthogonal click chemistry with TCO/TZ interaction. Nevertheless, this strategy is quite complicated to do due to both TCO isomerization and reactivity of radiolabelled TZ probes. Further optimizations will be mandatory before therapy can be transferred to clinic.

Tetrazine

Cancer colorectal

Radioimmunothérapie préciblée

Precious radioimmunotherapy

Tetrazine

Bioorthogonal chemistry

Peritoneal carcinosis

Colorectal cancer

616.994

Novel cyclodextrin modified electrodes for pharmaceutical and biomedical applications / Nouvelles électrodes modifiées avec cyclodextrines pour applications pharmaceutiques et biomédicales

Fritea, Luminita

14 September 2015

Les électrodes modifiées avec cyclodextrines ayant des grandes performances analytiques représentent une alternative intéressante pour le développement de (bio)capteurs électrochimiques dans un domaine attractif de la recherche pour différentes applications, et notamment les analyses pharmaceutiques et biomédicales. Le but de cette étude a été de développer de nouvelles électrodes modifiées avec β-cyclodextrine pour des applications biomédicales et pharmaceutiques. L'influence de la β-cyclodextrine a été étudiée en solution et à la surface d’électrodes.L'influence de la β-cyclodextrine en solution aqueuse sur le comportement électrochimique de certaines substances pharmaceutiques (l’acide ascorbique, l'acide urique, la caféine, la théophylline, l'aminophylline et l'acétaminophène) a été étudiée en utilisant des méthodes électrochimiques et spectrales, mettant en évidence la formation de complexes d'inclusion.Diverses techniques ont été utilisées pour la modification des électrodes avec β-cyclodextrine: l'incorporation de la β-cyclodextrine dans la pâte de carbone et le piégeage dans des films polymères de polyéthylèneimine. Ces capteurs ont permis la détermination simultanée de l'acide ascorbique et de l'acide urique. Les électrodes modifiées ont été aussi appliquées pour le dosage de l'acide ascorbique dans deux produits pharmaceutiques et pour l’évaluation quantitative de l'acide ascorbique et de l'acide urique dans l’urine humaine avec de bonnes performances.Deux types de biocapteurs basés sur une nouvelle nanostructure de graphène ont été élaborés avec de l'oxyde réduit de graphène, de β-cyclodextrine et de tyrosinase en utilisant la méthode couche par couche et l’électropolymérisation. Les nouveaux nanocomposites ont été caractérisés par des techniques spectrales, microscopiques et électrochimiques. Les biocapteurs optimisés ont été appliquées avec succès pour la détermination du catéchol et de la dopamine dans des produits pharmaceutiques et des échantillons biologiques avec une bonne récupération.La solubilisation dans l'eau de certains nouveaux fluorophores (quatre nouvelles tétrazines) en utilisant la -cyclodextrine et de nanoparticules d'or modifiées avec β-cyclodextrine a été signalée. Les assemblages supramoléculaires redox ont été caractérisés dans l'eau par analyses électrochimiques et de fluorescence. L'immobilisation de tétrazines sur différents types d'électrodes modifiées par polypyrrole-cyclodextrine a été également réalisée et examinée par techniques électrochimiques, spectroscopiques et microscopiques.Une autre contribution originale est la combinaison de la lithographie avec de nanosphères utilisant des billes de latex avec différents diamètres (900 et 100 nm), avec l’électropolymérisation du monomère pyrrole-Ru(II). Des micro et nanostructures très organisées ont été réalisées en présentant de meilleures6propriétés pour le film photosensible de poly [Ru(II)-pyrrole]. Par ailleurs, le film de poly [Ru(II)-pyrrole] a été modifié avec d'autres types de dérivés de pyrrole qui présentent de propriétés de complexation utiles pour l’immobilisation des biomolécules à la surface de l'électrode. / The cyclodextrin modified electrodes with enhanced analytical performances represent an attractive promise for the future development of electrochemical (bio)sensors and remain a very active field of research for a wide range of applications in many areas, including pharmaceutical and biomedical analysis. The aim of this study was to develop novel cyclodextrin modified electrodes for pharmaceutical and biomedical applications. The β-cyclodextrin influence was investigated both in solution and immobilized at the electrode surface.The influence of β-cyclodextrin on the electrochemical behavior of some pharmaceuticals (ascorbic acid, uric acid, caffeine, theophylline, aminophylline, and acetaminophen) in aqueous solutions was studied by using electrochemical and spectral methods, which highlighted the inclusion complexes formation.Various techniques were used for the electrode modification with β-cyclodextrin, such as: the incorporation in carbon paste and the entrapment in polymeric films (polyethylenimine). These sensors allowed the simultaneous determination of ascorbic and uric acids. The modified electrodes were also applied for the dosage of ascorbic acid in two pharmaceutical products and for the ascorbic and uric acids quantification in human urine with good performances.Two types of biosensors based on a new nanostructured graphene framework were developed with reduced graphene oxide, β-cyclodextrin and tyrosinase by using either layer by layer method or electropolymerization. These new nanocomposites were characterized by spectral, microscopic and electrochemical techniques. The optimized biosensors were successfully applied for catechol and dopamine determination in pharmaceutical products, serum and urine samples with good recoveries.The solubilization in water of some new fluorophores (four new synthesized tetrazines) by using -cyclodextrin and gold nanoparticles modified with β-cyclodextrin was reported. The redox supramolecular assemblies were characterized in water by electrochemical and fluorescence measurements. The immobilization of tetrazines onto various types of electrodes modified with polypyrrole-cyclodextrin was also achieved and examined by electrochemical, microscopic and spectroscopic techniques.Another original contribution is the combination of nanosphere lithography by using latex beads with different diameters (900 and 100 nm), with the electropolymerization of a Ru(II)-pyrrole monomer. The achievement of highly organized micro and nanostructures showed enhanced features for the photosensitive electrogenerated poly-[RuII-pyrrole] films. Furthermore, poly-[RuII-pyrrole] film was modified with other types of pyrrole derivatives presenting complexation properties in order to immobilize biomolecules at the electrode surface.

Β-Cyclodextrine

Polymère

Graphène

(Bio)capteurs

Tetrazine

Electrochimie

Β-Cyclodextrin

Polymer

Graphene

(Bio)sensors

Tetrazine

Electrochemistry

620

Nouvelles voies de synthèse sans métaux d'oligomères et de polymères π-conjugués pour l'électronique organique / Original metal-free synthesis routes of semi-conducting oligomers and (co)polymers for organic electronics

Garbay, Guillaume

22 November 2016

Dans cette thèse sont développées les synthèses et caractérisations de nouveaux polymères conjugués pour des applications dans l’électronique organique. Ces polymères ont été synthétisés via des réactions de polymérisation sans utilisation de métaux de transition. Des polyazomethines à base de carbazole ont ainsi été synthétisés par polycondensation entre des carbazole portant des fonctions amine et aldéhyde en positions 2,7 et 3,6. Leurs propriétés optiques et électroniques ont été étudiées en fonction de la position des fonctions imines ainsi formées. Un comonomère de type EDOT a ensuite été intégré dans le polymère et l’impact de ce comonomère sur les propriétés du copolymère ainsi formé a été étudié.Des polymères à base d’acide squarique et croconique ont ensuite été synthétisés. En faisant varierles conditions de synthèse, les propriétés optoélectroniques ont pu être contrôlées, permettant d’obtenir des composés présentant une émission blanche, qui ont ensuite été intégrés en tant que couche active dans des dispositifs de type OLED.Enfin, des polymères plus originaux ont été étudiés, utilisant des réactions de polymérisation originale, permettant par exemple la formation de benzobisthiazole in situ. D’autres polymères ont été synthétisés en intégrant dans leur chaine des monomères originaux, comme la tetrazine ou la divanilline. Les propriétés optoélectroniques de ces composés ont ensuite été étudiées en vue deleur éventuelle intégration dans des dispositifs. / In this work, synthesis and characterizations of new conjugated polymers are described.These polymers, developed for their integration into devices, have been synthesized via transitionmetalfree polymerizations. Carbazole based polyazomethines have been synthesized via polycondensation reactions between di-substituted carbazoles, bearing amino and formyl functionsin positions 3,6 or 2,7. Optical and electronical properties of such polymers have been studieddepending of the linkage position. A comonomer EDOT has then been integrated into the polymer chain, and impact of such insertion has been studied. Squaric and croconic acid base polymers have also been synthesized. By varying polymerization conditions, optoelectronic properties have been tuned, leading to the formation of polymers exhibiting a white emission. These polymers have then been integrated into OLED, as the active layer. Finally, more original polymers have been synthesized, using more original reactions or monomers such as by forming in situ benzobisthiazole. Other polymers integrating more originals monomers, such a tetrazine or divanillin, have been synthesized. Optoelectronic properties of such materials have been studied for the purpose of their integration into devices.

Acide squarique

Acide croconique

Carbazole

Imine

Azomethine

Tetrazine

Divanilline

OLED

Electronique organique

Polymères

Squaric acid,

Croconic acid

Carbazole

Imine

Azomethine

Tetrazine

Divanillin

OLED

Organic electronic

Polymer

Design de matériaux organiques électro-photo modulables / Design of photo and electro-tunable materials

Malinge, Jérémy

02 November 2012

Les travaux de cette thèse présentent le design et la synthèse de matériaux organiques/hybrides électro-photo modulables. La première partie détaille l’influence de groupements fluorés, attracteurs d’électrons, sur les mécanismes de transfert de charges au sein de triphénylamines : une nouvelle famille de molécules émissives, dont les longueurs d’onde d’émission couvrent une large gamme du visible est présentée. De plus, l’hydrophobicité induite par les atomes de fluor doit faciliter la préparation de nanobâtonnets préparés par mouillage d’une matrice d’alumine. Le reste du manuscrit s’intéresse à un second fluorophore organique, la tétrazine. Cette molécule possède une émission de fluorescence jaune qui peut être éteinte en présence de polluants riches en électrons. Immobilisée à la surface de nanoparticules de silice, la tétrazine conserve ces propriétés photophysiques et permet la préparation d’un dispositif solide capable de détecter des polluants aminés. L’incorporation au cœur de la nanoparticule d’un second fluorophore naphtalimide permet d’améliorer le rendement quantique de fluorescence et d’obtenir des nano-objets émettant une fluorescence blanche. Les propriétés photophysiques de ces objets sont décrites dans le manuscrit. Un dernier aspect détaille la synthèse et les études préliminaires de nouvelles dyades tétrazine-diacétylène. Les polydiacétylènes obtenus par polymérisation photo-induite possèdent plusieurs couleurs différentes. Cette partie vise à traiter l’influence des changements de phase du polymère sur l’émission de la tétrazine. / This Ph-D work deals with the design and the preparation of photo and electro-tunable materials. The first part of the manuscript deals with the influence of a fluorinated substitution onto a triarylamine moiety. The electron withdrawing fluorines modify the charge transfer process and customize the emission wavelength. In addition, the fluorinated groups increase the hydrophobic character of the material. This should be useful for the formation of organic nanorods via a template assisted method. The rest of the manuscript focuses on the tetrazine fluorophore which exhibits a yellow fluorescence that can be quenched in the presence of electron rich pollutants. A new methodology to covalently link a tetrazine derivative onto the surface of silica nanoparticle is discussed. The particles have similar photophysical properties as the tetrazine in solution allowing the use of this material as a solid sensing device. The incorporation into the silica core of a naphtalimide dye improves the overall fluorescence quantum yield of the system and provides nanoobjects emitting a white fluorescence. The photophysical phenomena involved in those particles are detailed in the manuscript. Finally, the synthesis and the photophysical properties of tetrazine-diacetylene dyads are discussed. Poly-diacetylenes prepared via a photopolymérisation process display different phases characterized by different colours. This part presents the preliminary results to understand the influence of the phase changes of the polymer on the tetrazine emission.

Groupement fluoré

Tétrazine

Photo and electro-tunable materials

Fluorinated substitution

Tetrazine

Homo- and heterometallic 3d-metal complexes with N- and N,O-donor ligands : synthesis, structure and properties / Complexes homo- et hétero- métallique 3d avec des ligands N- et N,O donneurs : Synthèse, structure et propriétés

Stetsiuk, Oleh

10 December 2018

Cette thèse est consacrée à la synthèse de complexes 3d homo et hétérométalliques avec des ligands bases de Schiff ou dérivés de la 1,2,4,5-tétrazine, à l’investigation de leur structure et de leurs propriétés physico-chimiques. Ce travail peut être divisé en trois parties. Dans la première partie, nous nous sommes principalement concentrés sur les ligands bases de Schiff, dérivés du salicylaldéhyde et des aminoalcools, formés in situ. Treize complexes hétérométalliques ont été obtenus et entièrement caractérisés. Il a été montré que les composés synthétisés possèdent une activité catalytique dans la réaction de l’oxydation photochimique de l’eau, présentent des propriétés de photoconductive dans les polymères composites et peuvent être utilisés pour le développement de matériaux multifonctionnels. La deuxième partie décrit la fonctionnalisation des ligands base de Schiff par l’introduction dans leur structure des unités tétrathiafulvalène et métaux dithiolènes électroactives. Deux nouvelles familles de ligands ont été synthétisées et caractérisées. La série de sels de radicaux cations et de complexes dithiolènes homo et hétérométalliques ainsi que leurs propriétés physiques ont été discutées. La dernière partie est consacrée aux ligands à base de tétrazine. Les principaux avantages du noyau tétrazine ont été discutés. Deux nouveaux ligands dérivés de la picolylamine et leurs complexes 3d mono- et binucléaires ont été décrits. / The thesis is devoted to the synthesis of homo- and heterometallic 3d-metal complexes with Schiff base ligands or derivatives of 1,2,4,5- tetrazine, together with the investigation of their structural and physico-chemical properties. This work can be divided in three parts. In the first part we have been mainly focused on the Schiff base ligands, derivatives of the salicylaldehyde and aminoalcohols. Thirteen heterometallic complexes were obtained and fully characterized. It has been shown that the synthesized compounds possess catalytic activity in the photochemical water oxidation, exhibit photoconducting properties in polymeric composites and can be used for the development of multifunctional materials of wide use. The second part describes the functionalization of Schiff base ligands by the introduction into their structure of electroactive tetrathiafulvalene and dithiolate moieties. Two new families of ligands were synthesized and characterized. The series of radicalcation salts and homo- and heterometallic dithiolene complexes together with the investigation of their physical properties have been described. The last part is devoted to the tetrazine based ligands. The main advantages of the tetrazine ring have been discussed. Two new ligands, derivative of picolylamine and their mono- and binuclear 3d-metal complexes are reported. In conclusion, perspectives of further research related to the described results were highlighted.

Dithiolène

Ligands électroactifs

Magnétisme

Complex

Schiff base

Tetrazine

Tetrathiafulvalene

Dithiolene

Electroactive ligands

Magnetism

540

Synthesis of new tetrazines functionalized with photoactive and electroactive groups

Zhou, Qing

20 July 2012

In this thesis, we have prepared different types of s-tetrazine derivatives for electrochemical and fluorescence studies. In the first part, we present a blibliographic study of s-tetrazine focussing on theirs synthesis and properties. In the second chapter, we introduce s-tetrazine derivatives as the ion pair receptor. These receprtors uses pi-anion type of interactions between ion pairs and s-tetrazines whcih has been seldom been observed in solution. The formation of complex between the ammonium salt (C8H17NH3Br or C8H17NH3I) and bis-s-tetrazine receptors is demonstrated by NMR and fluorescence titration experiments. It is also proved that receptor 82 binds stronger to ammonium salt than the shorter equivalents 80 and 81. Furthermore, all of them give the same unexpected selectivity order toward anions namely: I- > Br- > Cl-. Finally, a side reaction has been uncovered by UV-vis absorption which leads to the formation of Br2 or I2. Taking fully into account all spectroscopic results, we proposed a mechanism for this transformation. In the third part, in order to better understand the physico-chemcal properties of s-tetrazine, various s-tetrazines with different types of substituents have been prepared. It is clear that the electrochemical properties of the tetrazine nucleus depend on the electron affinity of its substituent and not on the size. Furthermore, electron donor groups quench the fluorescence of s-tetrazine even if they are not directly linked. A new type of s-tetrazines has been obtained through an unexpected reactivity of chloro-s-tetrazine. This reaction could give unsymmetrical s-tetrazines bearing one heteroatom and one alkyl chain which is useful for future developmemt of their properties. In the last part, we talk about new s-tetrazine dyads with improved brightness. Based on energy transfer from a donor part (naphthalimide or benzimidazole) to an acceptor core (tetrazine), these compounds own good fluorescence quantum yields, longer lifetimes and higher brightness. One derivative has been used to prepare a three colors fluorescent and electrochemically switchable device.

[CHIM:OTHE] Chemical Sciences/Other

[CHIM:OTHE] Chimie/Autre

Organical chemistry

Fluorescence

Tetrazine

From "Click" to "Click and Release", Using Inverse Electron Demand Diels-Alder Reaction for Chemical and Medicinal Applications

Wang, Danzhu

12 August 2014

Substituted tetrazines have been found to undergo facile inversed electron demand Diels-Alder reactions with “tunable” reaction rates. By varying the substituents on tetrazine, cycloaddition rate variations of over 200 fold have been achieved with the same dienophile. Coupled with the availability of different dienophiles, such as norbornene, the reaction rate difference can be over 14,000 folds. These substituted tetrazines can be very useful for selective labeling under different conditions. This finding paves the way to utilize tetrazine conjugation reactions for not only DNA but also stage labeling work. Carbon monoxide (CO) belongs to the gasotransmitter family of signalling molecules in the mammalian systems with importance on par with that of NO and H2S. Studies have shown that endogenous production of CO has anti-inflammatory, anti-proliferative, and anti-apoptotic effects in mammalian system. Besides of the conventional metal-based carbon monoxide releasing molecules (CORMs) to deliver CO for therapeutic purposes, organic CO prodrugs represent a new direction. Here we report the “click and release” approached to release CO. Unlike the metal-based CORMs, our system does not contain transition metal and liberates CO with controllable manner and possesses potential tunable releasing rate property under physiological conditions.

Tetrazine

Click chemistry

Click and release

Carbon monoxide

CORMs

Inflammatory bowel disease