Synthèse et études photophysiques de nouvelles molécules multichromophoriques photochromes et fluorescentes pour la photocommutation de fluorescence / Synthesis and photophysical studies of new multichromophoric molecules containing fluorescent and photochromic units for fluorescence photoswitching

Maisonneuve, Stéphane

06 September 2016

Le stockage optique de l’information et l’imagerie à super-résolution sont des champs d’application dont les besoins en matériaux et en molécules photocommutables sont grandissants. Une des approches consiste à associer au sein d’une même structure moléculaire des photochromes et des fluorophores au sein de laquelle des transferts d’énergie résonants sont possibles. La combinaison des propriétés photophysiques des deux types d’entités conduit à la photocommutation de fluorescence recherchée. Pour concevoir de tels systèmes, nous avons basé notre approche sur le concept de click chemistry qui permet d’avoir une grande flexibilité du point de vue synthétique. Ainsi, en utilisant des plateformes moléculaires comme les dérivés de sucres et la β-cyclodextrine, nous avons synthétisé de nombreuses architectures multichromophoriques. En variant le ratio entre le nombre de photochromes (DAE) et de fluorophores (DCM) au sein d’une même molécule, nous avons pu progresser dans la compréhension des relations entre les structures et les propriétés photophysiques de ces systèmes, impliquant des transferts d’énergie multiples entre les différentes entités. Cette démarche nous a permis, d’une part, d’appréhender les effets d’extinction non-linéaire de fluorescence, et d’autre part, de découvrir l’effet d’hystérèse photocontrôlable résultant de la compétition entre les transferts d’énergie et les réactions photochromes. / The fields of optical data storage and super-resolution imaging are in expansion and attract an increasing demand on photoswitchable materials and molecules. One approach consists in associating photochromic and fluorophores units in the same molecular structure, allowing resonant energy transfer processes. The combination of the photophysical properties of the two units leads to the expected fluorescence photoswitching. To design such systems, we based our approach on the click chemistry concept which offers a great flexibility in terms of synthesis pathways. Thus, using molecular platforms such as sugar derivatives and β-cyclodextrin, we have synthesized many multichromophoric architectures. By varying the ratio between photochromic (DAE) and fluorophore (DCM) units in the same molecule, we improved our comprehension of the structure-properties relationships, involving multiple energy transfers between the different entities. This allowed us, first, to understand the effects of non-linear fluorescence quenching, and secondly, to discover the light-controlled hysteresis effect resulting from the competition between energy transfers and photochromic reactions.

Cyclodextrine

Sucre

Multichromophorique

Photochromisme

Ret

Photocommutation de fluorescence

Cyclodextrin

Sugar

Multichromophoric

Photochromsim

Fret

Fluorescence photoswitching

Investigating the structure and dynamics of DNA with fluorescence and computational techniques

Smith, Darren Andrew

January 2015

Nucleic acids, such as DNA, play an essential role in all known forms of life; however, despite their fundamental importance, there is still a significant lack of understanding surrounding their functional behaviour. This thesis explores the structure and dynamics of DNA by employing methods based on fluorescence and through the use of computational calculations. Time-resolved fluorescence experiments have been performed on dinucleotides containing 2-aminopurine (2AP) in various alcohol-water mixtures. 2AP, a fluorescent analogue of the nucleobase adenine, has been used extensively to investigate nucleic acids because of its ability to be incorporated into their structures with minimal perturbation and its high sensitivity to its local environment. Direct solvent effects on 2AP were established through measurements on the free fluorophore. Analysis of the complex fluorescence decays associated with the dinucleotides was challenging but has provided insight into their conformational dynamics. Solvent polarity was found to play a significant role in determining both photophysical and conformational properties in these systems. The complicated fluorescence decay of 2AP in nucleic acids highlights the need for accurate and unbiased analysis methods. Various time-resolved fluorescence analysis methods, including iterative reconvolution and the exponential series method, have been investigated with real and simulated data to obtain an overview of their benefits and limitations. The main outcome of the evaluation is that no single method is preferred in all situations and there is likely to be value in using a combination when there is ambiguity in the interpretation of the results. Regardless of the analysis technique used, the parameterised description of the observed fluorescence decay is meaningless if the underlying physical model is unrealistic. The advance of computational methods has provided a new means to rigorously test the viability of proposed models. Calculations have been performed at the M06-2X/6-31+G(d) level of theory to investigate the stability of 2AP-containing dinucleotides in conformations similar to those observed in the double-helical structure of DNA. The results help to explain the similarity of the time-resolved fluorescence behaviour of 2AP in dinucleotide and DNA systems but also bring to light subtle differences that could perhaps account for experimental discrepancies. The recent emergence of advanced optical microscopy techniques has offered the prospect of being able to directly visualise nucleic acid structure at the nanoscale but, unfortunately, limitations of existing labelling methods have hindered delivery of this potential. To address this issue, a novel strategy has been used to introduce reversible fluorescence photoswitching into DNA at high label density. Photophysical studies have implicated aggregation and energy-transfer as possible quenching mechanisms in this system, which could be detrimental to its future application. The reliability of fluorescence photoswitching was investigated at ensemble and single-molecule level and by performing optical lock-in detection imaging. These developments lay the foundations for improved and sequence-specific super-resolution microscopy of DNA, which could offer new insights into the 3D nanoscale structure of this remarkable biopolymer. In summary, the work presented in this thesis outlines important observations and developments that have been made in the study of the structure and dynamics of nucleic acids.

572

Multi-photochromic architectures : from structure to function / Architectures multi-photochromiques : structures et fonctions

Galanti, Agostino

04 December 2018

L’objectif de cette thèse a été axé sur le développement des systèmes capable de répondre à des stimuli externes, basés sur des unités photochromiques. Le but d’une telle quête est d’augmenter la complexité des dispositifs et des machines moléculaires synthétiques. Avec l’objectif de développer des dispositifs et des machines artificiels plus complexes, nous avons réalisé de systèmes comprenant de multiples interrupteurs moléculaires. En vue de la réalisation de cette thèse, des nouveaux systèmes multi-photochromiques, où hybrides photochrome/nanomatériaux contenant des fragments azobenzène, diaryléthène ou spiropyrane ont été réalisés et étudiés. D’abord, on s’est focalisés sur des systèmes multi-azobenzènes capables de subir de grands réarrangements géométriques lors de la photoisomérisation, ils pourraient être utilisés à l'avenir comme éléments constitutifs des matériaux host-guest ou metal-organic frameworks contrôlables par des stimuli lumineux. Dans un second exemple, des commutateurs photochromiques de type dithiényléthène ont été utilisés pour déclencher l'émission d'une porphyrine. Cette dyade à montré une modulation réversible de son émission, affichant un contraste particulièrement élevé. Comme dernier exemple, un dérivé de spiropyrane a été combiné avec des nanoparticules d’or anisotropes. En induisant l'isomérisation de l’interrupteur moléculaire dans les dispersions colloïdales des nanorods d’or en liquide, nous avons visualisé une grande variation du spectre d'extinction des colloïdes, dépendante de la longueur d’onde du mode LSPR et du recouvrement spectrale avec le photoswitch. / The aim of this thesis has been to develop systems capable of responding to external stimuli, based on photochromic units. The goal of such a quest is to increase the complexity of devices and synthetic molecular machines. With the goal of developing more complex artificial devices and machines, we have realised systems containing multiple molecular switches. For the realisation of this thesis, new multi-photochromic systems, or photochromes/nanomaterials hybrids containing azobenzene, diarylethene or spiropyran moieties have been realised and studied. Firstly, we focused on multi-azobenzene systems capable of undergoing large geometric rearrangements during photoisomerisation, as they may be used in the future as constituent elements of host-guest or metal-organic frameworks controllable by luminous stimuli. In a second example, dithienylethene-type photochromic switches have been used to trigger the emission of a porphyrin. This dyad exhibited a reversible modulation of its emission, displaying a particularly highly contrasted response. As a final example, a spiropyran derivative has been combined with anisotropic gold nanoparticles. By inducing the isomerisation of the molecular switch in the AuNR colloidal liquid dispersions, we visualised a large variation of the colloid extinction spectrum, dependent on the LSPR mode wavelength and the spectral overlap with the photoswitch.

Multi-photochromisme

In-situ photoswitching

Interfaces

Microscopie à effet tunnel

Multi-photochromic

In-situ photoswitching

Interfaces

Scanning tunnelling microscopy

Self-assembly

Gold nanorods

Fluorescence photoswitching

541.3