Synthesis, Linear and Nonlinear Photophysical Characterization of Two Symmetrical Pyrene-terminated Squaraine Derivatives in Solution

Ballestas Barrientos, Alfonso

01 January 2015

Two indole-based squaraine dyes bonded to two pyrenyl groups through vinyl- and ethynyl- linkers were synthesized with the aim of enhancing the intramolecular charge transfer interaction in addition to improving their optical properties. The absorption and emission properties of these derivatives were determined in order to gain an insight into the intensity of this type of interaction, their aggregation behavior and compare them with results obtained through quantum chemical calculations. Both compounds presented high photochemical stability in THF, and the linear spectroscopic characterization revealed high extinction coefficients, large fluorescence quantum yields and relatively low tendency of forming excimers in several solvents. The nonlinear spectroscopic study revealed two-photon absorption cross section maxima greater than 10,000 GM (1 GM = 1 × 10-50 cm4 s/photon), which are improved values in comparison with the indole-based squaraine core. The experimental results were compared with time-dependent DFT calculations. These observations propose a new trend in the formulation of highly absorbing organic molecules containing pyrenyl groups for the development of new materials with Organic Light-Emitting Diode (OLED) applications. Moreover, this work contributes to the study of intramolecular charge transfer interaction and its tailoring for the improvement of the linear and nonlinear optical properties.

Squaraine dye

pyrene

photophysical property

pi conjugation

Chemistry

Synthèse et propriétés de nouvelles molécules carbo-mères : carbo-quinoïdes et carbo-benzénoïdes / Synthesis and properties of new carbo-mers molecules : carbo-quinoids and carbo-benzenoids

Cocq, Kévin

09 September 2015

A la suite de nombreuses illustrations et validations au niveau fondamental, la chimie de molécules carbo-mères s'est récemment orientée vers des cibles fonctionnelles en termes de perspectives d'applications (" carbo-matériaux " moléculaires). C'est ainsi que de telles molécules expansées en carbone ont récemment montré des propriétés remarquables dans les domaines de la conductivité sur molécule unique (SMC) ou de l'absorption à deux photons (TPA). La considération de cibles de types fondamentalement nouveaux " reste cependant nécessaire en préliminaire à l'étude de propriétés nouvelles aussi. Le travail décrit dans ce manuscrit présente essentiellement les résultats concernant la synthèse de carbo-quinoïdes et de carbo-benzénoïdes, deux types de structures carbo-mères qui n'avaient jamais été envisagées expérimentalement auparavant. Le premier chapitre est un résumé bibliographique décrivant notamment la synthèse et les propriétés de molécules carbo-mères aromatiques, et plus généralement hautement pi-conjuguées (carbo-benzènes, carbo-cyclohexadiènes, carbo-oligoacétylènes...) Le second chapitre porte sur l'étude complète des trois régioisomères, " ortho ", " para ", et " meta " du tétraphényl-carbo-benzène, dont les deux premiers représentants avaient été partiellement décrits. Le troisième chapitre décrit la synthèse et l'étude du premier exemple de carbo-quinoïde, ainsi que sa transformation rédox réversible en carbo-benzènes, illustrant ainsi la " pro-aromaticité redox " des carbo-quinoïdes vis-à-vis de leurs analogues oxydés carbo-benzènes. Le quatrième et dernier chapitre est consacré à la synthèse et l'étude d'un carbo-benzénoïde, le carbo-naphtalène, pouvant être considéré comme le plus petit fragment polycyclique condensé d'alpha-graphyne, un matériau largement étudié au niveau théorique mais encore inconnu expérimentalement à ce jour. Les propriétés physico-chimiques et spectroscopiques de carbo-naphtalène sont comparées à celle du carbo-benzène monocyclique correspondant, dont la synthèse est aussi détaillée. / Following numerous illustrations and validations at the fundamental level, the chemistry of carbo-meric molecules was recently directed towards functional targets in terms of application prospects (molecular "carbo-materials'). Such carbon-expanded molecules have indeed recently been shown to exhibit remarkable properties in the areas of single molecule conductivity (SMC) or two-photon absorption efficiency (TPA). The consideration of target of fundamentally "new types" remains necessary in view of the study of new properties as well. The work described in this manuscript focus mainly on results concerning the synthesis of carbo-quinoids and carbo-benzenoids, two types of carbo-meric structures that had not been considered hitherto. The first chapter is a bibliographic summary describing the synthesis and properties of carbo-meric molecules, either aromatic or, more generally, highly pi-conjugated (carbo-benzenes, carbo-cyclohexadienes, carbo-oligoacetylenes...) The second chapter focuses on the complete study of the three regioisomers, "ortho", "para" and "meta" of tetraphenyl-carbo-benzene, the first two representatives having been partly described previously. The third chapter describes the synthesis and study of the first example of carbo-quinoid and its reversible redox transformation to carbo-benzenes, illustrating the "redox pro-aromaticity" of carbo-quinoid with respect to their oxidized carbo-benzenic analogues. The fourth and final chapter is devoted to the synthesis and study of a carbo-benzenoid, carbo-naphthalene, which can be regarded as the smallest condensed polycyclic fragment of alpha-graphyne, a material widely studied at the theoretical level but remaining unknown experimentally to date. The physicochemical and spectroscopic properties of carbo-naphthalene are compared to that of the corresponding monocyclic carbo-benzene, the synthesis of which is also detailed.

Carbo-mère

Aromaticité

Pi-conjugaison

Péricyclyne

Benzénoïdes

Quinoïdes

Carbo-mer

Aromaticity

Pi-conjugation

Pericyclyne

Benzenoids

Quinoids

Supramolecular control of synthesis and electronic structure of porphyrin oligomers

Sprafke, Johannes Klaus

January 2011

The work described in this thesis demonstrates the use of supramolecular chemistry in the template-directed synthesis of porphyrin nanorings and as a tool to control conformation and topology of π-conjugated porphyrin oligomers. Particular emphasis is placed on changes to the electronic structure of these oligomers depending on their conformation. Chapter 1 gives an overview of π-conjugated porphyrin oligomers and conjugated macrocycles in general, followed by an introduction into supramolecular cooperativity and small angle X-ray scattering in solution. Chapter 2 describes advances in the synthesis, solution structure elucidation and optoelectronic properties of a fully conjugated cyclic porphyrin hexamer. The high rigidity and symmetry of this nanoring as well as its bent π-system lead to a significant decrease in its HOMO-LUMO gap. The resulting near-infrared emission was exploited in the fabrication of light emitting diodes, demonstrating the use of a bent topology for minimizing aggregation in thin films. The synthesis of a [12]porphyrin nanoring using a hexadentate template is presented in Chapter 3. The concept of Vernier templating is introduced as a general strategy for the synthesis of large monodisperse macrocycles. The nanoring is characterized and its cooperative binding to two template molecules is studied. In Chapter 4 a bidentate ligand is used in the cooperative formation of a sandwich complex beween two nanorings. Chapter 5 provides an analysis of the rigidity of the butadiyne linked porphyrin oligomers used throughout this thesis. A linear chain is significantly more flexible in solution than on a surface where it is confined within two dimensions. Analysis of the persistence length indicates that a porphyrin nanoring with more than around 20 units would not be significantly strained. The supramolecular binding of linear porphyrin oligomers to carbon nanotubes is analyzed in Chapter 6. The binding strength increases sharply with oligomer length and binding is strongest with (8,6) and (7,5) tubes. The energy level alignment in these porphyrin CNT complexes appears to be favorable for an application in photovoltaics. In Chapter 7 bisamidine-carboxylate salt bridges together with zinc-nitrogen coordination chemistry are used to access a variety of topologies in assemblies based on carboxylic acid functionalized porphyrin dimers.

547.135