In Actu Et In Silicio: Linear and Nonlinear Photophysical Characterization of a Novel Europium Complex, and Incorporating Computational Calculations in the Analysis of Novel Organic Compounds

Woodward, Adam

01 January 2014

Despite not being a tangible substance, light is becoming an increasingly valuable tool in numerous areas of science and technology: the use of laser excitation of a fluorescent probe can generate incredibly detailed images of cellular structures without the need for large amounts of dissection; new types of solar cells are being produced using organic dyes to harvest light; computer data can be stored by inducing a chemical change in a compound through irradiation with light. However, before any of these materials can be applied in such a way, their properties must first be analyzed for them to be deemed viable. The focus of this dissertation is the photophysical characterization, linear and nonlinear, of a several novel organic compounds, and a europium complex, as well as using quantum chemical calculation techniques to understand some of the phenomena that are witnessed and begin to develop predictive capability. The nonlinear characterization of compounds utilizes wavelengths outside of their linear absorption range, where a focused beam can achieve the same excitation as one at half the wavelength, though this effect has a quadratic dependence on power. The potential for nonlinear excitation, or two-photon absorption (2PA), is becoming of increasing interest and importance for organic chromophores. Exciting only a small volume of material at a focal point makes it possible to nondestructively image samples in 3-dimensions, record data in multiple layers, and fabricate intricate structures through photopolymerization reactions. Lanthanides such as europium are known to exhibit sharp emission bands when excited, typically through an antenna effect due to the low probability of achieving direct excitation. This emission is long-lived, and through gating systems can readily be separated from background noise and autofluorescence (often observed in biological samples) that have much shorter lifetimes. Thus, one of the foci of this dissertation is the photophysical investigation of a series of novel lanthanide complexes, with particular attention to a europium complex.

Chemistry

Quantenpunktbasiertes spektroskopisches Lineal mit Terbium-Komplexen als Donoren für optische FRET-Multiplexmessungen / Quantum-dot based spectroscopic ruler with terbium-complexes as donors for multiplexed optical FRET measurements

Morgner, Frank

January 2012

Der Förster-Resonanzenergietransfer (FRET) liefert einen wichtigen Beitrag bei der Untersuchung kleinskaliger biologischer Systeme und Prozesse. Möglich wird dies durch die r-6-Abhängigkeit des FRET, die es erlaubt Abstände und strukturelle Änderungen weit unterhalb der Beugungsgrenze des Lichts mit hoher Sensitivität und geringem Aufwand zu bestimmen. Die besonderen photophysikalischen Eigenschaften von Terbiumkomplexen (LTC) und Quantenpunkten (QD) machen sie zu geeigneten Kandidaten für hochsensitive und störungsarme Multiplex-Abstandsmessungen in biologischen Systemen und Prozessen. Die Abstandsbestimmungen setzen jedoch eine genaueste Kenntnis des Mechanismus des Energietransfers von LTC auf QD ebenso voraus, wie das Wissen um Größe und Gestalt letzterer. Quantenpunkte haben im Vergleich zu biologischen Strukturen ähnliche Dimensionen und können nicht als punktförmig betrachtet werden, wie es bei einfacheren Farbstoffen möglich ist. Durch ihre Form kommt es zu einer Abstandsverteilung innerhalb des Donor-Akzeptorsystems. Dies beeinflusst den Energietransfer und damit die experimentellen Ergebnisse. In dieser Arbeit wurde der Energietransfer von LTC auf QD untersucht, um zu einer Aussage hinsichtlich des Mechanismus der Energieübertragung und der dabei zu berücksichtigenden photophysikalischen und strukturellen Parameter von LTC und QD zu gelangen. Mit der Annahme einer Abstandsverteilung sollten die Größen der Quantenpunkte bestimmt und der Einfluss von Form und Gestalt auf den Energietransfer betrachtet werden. Die notwendigen theoretischen und praktischen Grundlagen wurden eingangs dargestellt. Daran schlossen sich Messungen zur photophysikalischen Charakterisierung der Donoren und Akzeptoren an, die Grundlage der Berechnung der FRET-Parameter waren. Die Förster-Radien zeigten die für den FRET von LTC auf QD typischen extrem hohen Werte von bis zu 11 nm. Zeitaufgelöste Messungen der FRET-induzierten Lumineszenz der Donoren und Akzeptoren in den beiden biomolekularen Modellsystemen Zink-Histidin und Biotin-Streptavidin beschlossen den praktischen Teil. Als Donor wurde Lumi4Tb gebunden an ein Peptid bzw. Streptavidin genutzt, Akzeptoren waren fünf verschiedene, kommerziell erhältliche Quantenpunkte mit Carboxyl- bzw. Biotinfunktionalisierung. Bei allen Donor-Akzeptor-Paarungen konnte FRET beobachtet und ausgewertet werden. Es konnte gezeigt werden, dass die gesamte Emission des Terbiums zum Energietransfer beiträgt und der Orientierungsfaktor ² den Wert 2/3 annimmt. Die Charakterisierung der Bindungsverhältnisse innerhalb der FRET-Paare von LTC und QD über Verteilungsfunktionen bietet über die Form der Verteilungskurve die Möglichkeit Aussagen über die Gestalt der FRET-Partner zu treffen. So war es möglich, die mittlere Form der Quantenpunkte als Sphäre zu bestimmen. Dies entsprach, insbesondere bei den in z-Richtung des Kristallgitters elongierten Quantenpunkten, nicht den Erwartungen. Dieser Befund ermöglicht daher bei zukünftigen Messungen eine Verbesserung der Genauigkeit bei Abstandsbestimmungen mit Quantenpunkten. Neben der Ermittlung der die FRET-Verteilung bestimmenden Gestalt der Quantenpunkte konnte im Rahmen dieser Arbeit anhand vergleichender Messungen die Dicke der Polymerhülle der QD bestimmt und so gezeigt werden, dass FRET-Paare aus lumineszenten Terbiumkomplexen und Quantenpunkten in der Lage sind, Abstände im Nano- bis Sub-Nanometerbereich aufzulösen. / Förster resonance energy transfer (FRET) plays an important role in the study of small-scale biological systems and processes. This is made possible by the r-6-dependence of FRET, which allows for determination of distances and structural changes far below the diffraction limit of light with high sensitivity and low costs. The unique photophysical properties of terbium complexes (LTC) and quantum dots (QDs) make them suitable candidates for high-sensitivity, low-noise multiplex distance measurements in biological systems and processes. Estimating distances with these FRET-pairs requires a precise knowledge of the mechanism of energy transfer from LTC to QD as well as the knowledge of size and shape of the latter. Quantum dots have, compared to biological structures, similar dimensions and therefore can not be considered as point-like, as it is possible with smaller dyes. Due to their shape, there is a distance distribution within the donor-acceptor system. This influences the energy transfer and hence the experimental results. In this work, the energy transfer from LTC to QD was examined to come to a conclusion regarding the mechanism of energy transfer and the photophysical and structural parameters of LTC and QD to be considered. The adoption of a FRET-distance distribution due to a size distribution of quantum dots should yield to a size estimation of the nanoparticles as well as a conclusion of the influence of shape and form on energy transfer. The necessary theoretical and practical principles were described at the outset of this work. This description of the basic concepts was followed by the photophysical characterization of the donors and acceptors and the calculation of FRET parameters. The calculated Förster radii were typical for the FRET from LTC to QD and showed extremely high values of up to 11 nm. Time-resolved measurements of the FRET-induced luminescence of donors and acceptors in two biomolecular model binding systems namely zinc-histidine and biotin-streptavidin binding rounded the practical part. FRET-donors used were commercially available Lumi4Tb complexes bound to streptavidin or a peptide, respectively. As FRET-acceptors five different commercially available quantum dots with carboxyl- or biotin-functionalisation were used. For all donor-acceptor pairs FRET could be observed and evaluated. It could be shown that the whole emission of terbium contributes to energy transfer. Furthermore the orientation factor ² was estimated to have a value of 2/3 when using LTC as FRET-donors and QD as FRET-acceptors. The characterization of the bonding within the FRET pairs of LTC and QD with distribution functions allows for statements about the shape of the FRET partners via shape of the distribution curves. It was possible to determine the average shape of the quantum dots as a sphere. This outcome was, especially for (in z-direction of the crystal lattice) elongated quantum dots, in the contrary to the expectations. This finding therefore allows for improving the accuracy of distance determinations with quantum dots. Based on comparative measurements it was also possible to determine the thickness of the polymer shell of the QD demonstrating that FRET pairs of luminescent terbium complexes and quantum dots are capable of determining distances in the nanometer to sub-nanometer range.

Quantenpunkte

Lanthanoidkomplexe

FRET

Abstandsverteilungen

spektroskopisches Lineal

quantum dots

lanthanide complexes

FRET

distance distribution

spectroscopic ruler

Chemistry and allied sciences

Studium komplexů lanthanoidů pomocí spektroskopických metod / Studies of Lanthanide Complexes by a Combination of Spectroscopic Methods

Krupová, Monika

January 2014

Studies of Lanthanide Complexes by a Combination of Spectroscopic Methods Monika Krupová (Department of Physical and Macromoecular Chemistry, Faculty of Science, Charles University in Prague) Since conventional structural analysis offers rather limited means for the chirality detection, a series of lanthanide tris-(β-diketonates) are investigated as effective receptors for a better chirality sensing in biomolecular substrates. These lanthanide complexes containing β-diketonate ligands are electrically neutral; they can further coordinate with various small organic molecules such as chiral alcohols, amino alcohols or amino acids in organic solvents and produce a strong chiral signal. Previously, a resonance in Raman scattering was observed in the studied systems due to the correspondence of europium electronic transition energy to the laser excitation wavelength, about a 100-fold signal enhancement if compared to non-resonant vibrational ROA was observed. This enabled shorter detection times as well as lower sample concentrations. In the current work, interaction of the Eu(FOD) complex with (R)- and (S)- enantiomer of 1-phenylethanol in n-hexane was studied using IR spectroscopy, Raman spectroscopy and Raman optical activity (ROA), UV-Vis spectroscopy and ultraviolet circular dichroism (UVCD). Only...

Photochromic switches for luminescence, plasmonic resonance, single molecule magnetic properties, and molecular wires for nano junctions / Commutateurs photochromiques pour la luminescence, la résonance plasmonique, propriétés magnétiques molécule unique et fils moléculaires pour les jonctions nano

Selvanathan, Pramila

18 November 2016

Ce travail est consacré à la synthèse et la caractérisation des commutateurs et des fils moléculaires incorporant l'unité et le ruthénium organométalliques fractions photochromiques. La première partie traite de lanthanides complexe Yb combiné avec l'unité et le ruthénium acétylure fractions photochromiques afin de moduler la luminescence avec l'aide de redox et de stimuli lumineux. Dans la deuxième partie explique la combinaison d'unités DTE photochromiques avec des fragments acétylures de ruthénium pour fixer sur la surface de nanoparticules métalliques afin d'affiner leur résonance plasmonique grâce à la modification de l'environnement de surface en utilisant la lumière et redox stimuli. La troisième partie décrit la préparation de complexes de lanthanides combinés avec une unité photochromique spiropyranne pour commuter les propriétés SMM des complexes via photoisomérisation de l'unité spiropyranne. Dans la dernière partie, nous présentons la synthèse de Oligo (phénylène éthylène) Les fils moléculaires avec différents noyaux centraux afin d'obtenir une variété de fil avec différents niveaux d'énergie HOMO-LUMO pour vérifier l'effet de l'épinglage. / This work is devoted to the synthesis and characterization of novel molecular switches and wires incorporating photochromic unit and ruthenium organometallic moieties. The first part deals with lanthanide Yb complex combined with photochromic unit and ruthenium acetylide moieties in order to modulate the luminescence with the help of redox and light stimuli. In the second part explained the combination of photochromic DTE units with ruthenium acetylide moieties to attach on the surface of metal nanoparticles in order to tune their plasmonic resonance through the surface environment modification by using light and redox stimuli. The third part describes the preparation of lanthanide complexes combined with a spiropyran photochromic unit in order to switch the SMM properties of the complexes via photoisomerization of the spiropyran unit. In the last part, we report the synthesis of Oligo(phenylene ethylene) molecular wires with different central cores in order to obtain various wire with different HOMO-LUMO energy levels to check the effect of pinning.

Photochromisme

Luminescence

Complexes de ruthénium

Résonance plasmonique

Molécule aimant

Des complexes de lanthanides

Fil moléculaire OPE

Photochromism

Luminescence

Ruthenium complexes

Plasmonic resonance

Single Molecule Magnet

Lanthanide complexes

OPE molecular wire

Synthèse,Relaxivité et Luminescence de complexes de lanthanides dérivés de ligands ditopiques et assemblages supramoléculaires

Paris, Jérôme

07 October 2010

Lanthanide elements display many remarkable and exciting properties which explain their widespread use in a number of very important biomedical tools like efficient MRI contrast agents or luminescent probes for highly sensitive assays of bioanalytes amongst other fields of application. In this context, the aim of the present work was to prepare and characterize lanthanide complexes of two ligands that feature a linear or a macrocyclic chelating unit compactly grafted onto a 1,10-phenanthroline derived moiety (phenDTPA and PhenHDO3A). The ditopic nature of the ligands allows the selective incorporation of a d6 metal ion and a lanthanide one in close proximity. The resulting rigid heterobimetallic supramolecular species show useful properties and constitute potential MRI contrast agents or new luminescent compounds depending on the type of the lanthanide and transition metal ions employed: for example, the selfassembly process of gadolinium(III) chelates around an iron(II) ion brings a remarkable increase of their relaxivity, a key parameter for use in MRI. On the other hand, association of a ruthenium and and a near infrared emitting 4f ion like ytterbium(III) gives mixed d-f structures able to harvest visible light and convert it into near infra-red signal. Visible light luminescent pH probes were also obtained with Eu3+ or Tb3+ phenHDO3A complexes.

Relaxivity/relaxivite

luminescence/luiminescence

phenanthronline

ditopic ligand/ligand ditopique

DTPA

DOTA

DO3A

gadolinium

europium

ytterbium

Near infra-red/ proche infra-rouge

Nano-sondes hybrides luminescentes pour la détection du cancer de la prostate / Hybrid luminescent nanoparticles for the prostate cancer diagnosis

Adumeau, Pierre

26 February 2014

Ce travail de thèse a consisté en la conception et la réalisation d’une nano-sonde hybride luminescente visant à permettre la détection précoce du cancer de la prostate. La première partie de ce projet a été consacré à la synthèse, par une voie de chimie click, d’une bibliothèque d’acides 4-triazolyl dipicoliniques substitués en position 4 du triazole par une large gamme de substituants. Ces diacides ont permis d’obtenir les complexes d’europium(III) et de terbium(III) correspondant, qui ont montré d’excellentes propriétés optiques, avec des rendements quantiques de luminescence sous excitation UV pouvant atteindre 60% et 36%, pour les complexes d’europium(III) et deterbium(III) respectivement. D’autre-part, ces fluorophores ont pu être excités efficacement en régime biphotonique, à la fois au travers des transitions S0 ®S1 et S0 ®T1. Sur la base de ces résultats, certains de ces chélates ont été sélectionnés afin de les incorporer dans des nanoparticules de silice. Le procédé d’élaboration par microémulsion inverse s’est révélé efficace pour l’incorporation des complexes électriquement neutres, mais n’a pas permis celle de nanohybrides incorporant des complexes chargés négativement. Ces nanohybrides présentent des propriétés optiques caractéristiques des lanthanides, avec des rendements quantiques allant jusqu’à 30%. La surface de ces nano-objets a ensuite été fonctionnalisée par des groupements amino, qui ont permis le greffage de bras espaceur et d’un vecteur ciblant la PSMA, l’un des signaux du cancer de la prostate, nous donnant ainsi accès à un modèle de nano-sonde luminescente. Un autre volet de ce travail a été dédié à l’étude de nouveaux analogues du NAAG, substrat naturel de la PSMA. Bien que la synthèse des deux composés cibles, sélectionnés parmi une vingtaine de structures par modélisation moléculaire, n’ait pu aboutir, elle a été largement avancée. Enfin, la dernière partie de ce travail décrit les premiers résultats obtenus in vitro et in vivo avec les nanosondes. Ces études ont porté sur l’évaluation de la cytotoxicité des nanoparticules ainsi que sur leur biodistribution chez la souris saine et chez la souris porteuse d’une tumeur prostatique. Cette étude a révélé une élimination rapide des nanoparticules par l’organisme, mais n’a malheureusement pas pu mettre en évidence un marquage des zones tumorales par les nanosondes. / The aim of this project was the design of a luminescent nanoprobe allowing the early prostate cancer detection.The first part of this project was the synthesis, through a click chemistry approach, of a library of 4-triazolyl dipicolinic acid substituted in position 4 of the triazole by a wide range of substitutive groups. These diacids were used to synthesise the corresponding europium(III) and terbium(III) complexes, which showed excellent optical properties, with photoluminescence quantum yield under UV excitation reaching 60% for europium(III) complexes and 36% for terbium(III) complexes. Moreover, these phosphores have been efficiently excited in biphotonic regime through the transitions S0 ®S1 and S0 ®T1. The more interesting chelates were selected for their further embedding into silica nanoparticles. The water-in-oil emulsion process showed a great efficiency for the incorporation of electrically neutral complexes, but did not allow the embedding of negatively charged ones. The resulting nanohybrids showed optical properties typical of lanthanides, presenting photoluminescence quantum yields up to 30%. The nanoparticles surface was then functionalised by amino groups, which were used to graft a spacer then a prostate tumour cells vector, giving us a luminescent nanoprobe model. The third section of this work was devoted to the study of new analogues of NAAG, the natural substrate of the PSMA, one of the prostatic cancer signals. Although the synthesis of the two target compounds, selected from more than 20 structures by molecular modelling, was uncompleted, they are now within easy reach. The last part describes the preliminary results obtained in vitro and in vivo with the nanoprobes. These studies were focused on the nanoparticles cytotoxitcity assessment, depending on the surface functionalisation, and on their distribution, in healthy and in prostatic tumour bearing mice. This study revealed the fast elimination of the nanoparticles by the organism, but did not show any concentration of nanoprobes in tumoral area.

CuAAC

Acide 4-triazolyl dipicolinique

Complexes de lanthanide

Luminescence

Biphotonique

Nanohybrides

Sol-gel

Fonctionnalisation de surface

Cancer de la prostate

Analogues du NAAG

CuAAC

4-triazolyl dipicolinic acid

Lanthanide complexes

Luminescence

Biphotonic

Nanohybrids

Sol-gel

Surface functionalisation

Prostate cancer

NAAG analogues

Synthesis, structural investigations and evaluation of pyrazine sensitizers for lanthanides emitting in near-infrared and novel phosphine derivatives / Synthèse, étude structurale et évaluation de sensibilisateurs pyraziniques de lanthanides émettant dans le proche infrarouge et de nouvelles phosphines

Cieślikiewicz-Bouet, Monika

18 October 2012

En raison de l’omniprésence des hétérocycles azotés et de leurs propriétés biologiques, une attention particulière est accordée au développement de méthodologie pour leur synthèse et leur fonctionnalisation. L’étude de la fonctionnalisation d’énamides constitue une thématique importante car ces motifs s’avèrent être des outils synthétiques polyvalents permettant d’accéder à des dérivés hétérocycliques complexes. Les réactions de couplage Pd-catalysées constituent une méthode de choix rapide et efficace pour la synthèse d'énamides, notamment à partir de phosphates d'énols issus de lactames, d’imides ou d’amides. Le premier chapitre de ce travail porte sur le couplage organopalladié C-P de phosphines boranes secondaires chirales ou achirales avec des phosphates d’énols. Ce couplage C-P original, réalisé dans des conditions douces, conduit aux énamido-phosphines boranes correspondantes et offre de nombreuses possibilités pour la constitution d’une librairie de phosphines originales. Parallèlement à ce travail, l’addition nucléophile d’anions phosphures sur divers ène-carbamates acycliques conduit à des acides alpha-aminés béta-phosphorés originaux, porteurs d’un carbone quaternaire en alpha de l’azote. Le deuxième chapitre de la thèse porte sur la préparation et la caractérisation de chromophores organiques originaux basés sur un noyau pyrazinique et qui sont susceptibles de présenter des propriétés de fluorescence. Ces composés sont conçus pour former des nouveaux systèmes sensibilisateurs de cations de lanthanides, et être utilisés comme sensibilisateurs organiques pour l'imagerie moléculaire dans le proche infrarouge. / On account of the ubiquity of nitrogen heterocycles and their biological properties, the great attention is paid to developing methodologies of their synthesis and functionalization. For this purpose, the study of functionalization of enamides constitutes an important topic due to the utility of these motifs in the construction of complex heterocyclic derivatives. Palladium-catalyzed reactions of cross- coupling are rapid and efficient methods of choice for synthesis of enamides particularly starting from enol phosphates derived from lactams, imides or amides. The first chapter of the thesis evokes the original C-P coupling reaction of chiral and achiral secondary phosphine boranes with different enol phosphates in mild reaction conditions, leading to corresponding enamido-phosphine boranes. This methodology permits the construction of libraries of novels phosphines. Also, the reaction of nucleophilic addition of phosphide anions onto various enecarbamates acyclic was elaborated, giving an access to original beta-phosphino alpha-amino acids, bearing the quaternary carbon on alpha position to nitrogen. The second chapter is devoted to the preparation and characterization of organic chromophores based on the pyrazinic core, which are likely to exhibit the fluorescence properties. These compounds were designed to form new sensitizing systems for lanthanide cations and could be used as organic sensitizers for molecular imaging in near infrared.

Enamides

Phosphate d’énol

Couplage C-P pallado-catalysé

Enamido-phosphine borane

Acides alpha-aminés béta-phosphorés

Complexes de lanthanides

Antenne hétérocyclique

Proche infrarouge

Enamides

Vinyl phosphate

C-P palladium catalyzed cross-coupling

Enamido-phosphine boranes

Beta-phosphino alpha-amino acids

Lanthanide complexes

Heterocyclic antenna

Near infrared