Capteurs fluorescents à base de fluorène : nouvelles perspectives en synthèse et applications pour le marquage des acides nucléiques et en imagerie de la membrane cellulaire / Fluorene-based fluorescent markers : new insights in synthesis and applications into labeling of nucleic acids and imaging of cell membranes

Shaya, Janah

21 September 2016

Le développement de nouvelles voies synthétiques permettant l’accès à des sondes à applications biologiques connaît un intérêt accru. Les travaux de cette thèse s’inscrivent dans ce cadre. Ils portent particulièrement sur les colorants « Push-pull » qui se caractérisent par leur sensibilité aux changements de leur environnement, leur faible cytotoxicité et leur photostabilité élevée. En outre, la synthèse de ces fluorènes est très exigeante. Nos travaux ont abouti à : 1) Des approches synthétiques concises pour accéder à des composés aromatiques aminés difficiles à synthétiser, celles-ci via des systèmes Pallado-catalysés optimisés impliquant une amination sélective et une synthèse séquentielle en « one pot », 2) La synthèse d'une bibliothèque vaste de fluorènes avec la diversification des groupements accepteur et donneur. 3) Des relations structure- propriétés photophysiques. 4) La synthèse de trois colorants avancés engendrant la première sonde de fluorènes spécifique aux membranes : un outil puissant pour étudier la structure et les dynamiques biophysiques de ces membranes. Le colorant optimal surpasse les caractéristiques des sondes couramment utilisées montrant : une absorption décalée vers le rouge attenant 405 nm en diode laser, une luminosité plus élevée diminuant la concentration du colorant pour la coloration de ~ 10-15 fois, une haute photo-stabilité, une forte sensibilité aux domaines liquides des membranes des cellules. 5) La Synthèse de 4 phosphoramidites marqués et leurs incorporations dans les oligonucléotides attestant une grande sensibilité aux milieux protiques et au pH. En duplex d'ADN, le colorant est efficace pour la différenciation des bases opposées. Une application du marqueur d'ADN fluorescent l’a testé comme un donneur pour le déplacement de Stokes dans une paire de FRET émissive en combinaison avec l’accepteur Dy681. Le FRET a démontré une augmentation ratiométrique dans la région proche infrarouge avec un décalage de 300 nm / Extensive research focuses on finding straightforward synthesis and prospective probes for biological applications. Push-pull dyes are of particular interest for various uses as biosensors for membranes and nucleic acids. These dyes are highly responsive to changes of their environments. Specifically, push-pull fluorenes exhibit low cytotoxicity and high photostability, but are not yet reported in the two mentioned applications. Furthermore, their synthesis is highly demanding. In this context, our work presents: 1) Step-economic and concise approaches to access challenging aminoaromatics via optimized air-stable Pd catalytic systems involving selective mono/di-amination and sequential one-pot synthesis, 2) Synthesis of a fluorene library varying the acceptor and the donor groups, 3) Structure-photophysics relationships, 4) Synthesis of three advanced dyes and concluding the first plasma membrane-specific fluorene probe that can be a powerful tool for studying the structure and biophysical dynamics of membranes. The optimal dye surpasses the features of commonly used probes showing: red-shifted absorption matching the 405 nm diode laser, higher brightness decreasing the dye concentration for staining by ~10-15 folds, high photostability, comparably strong sensitivity to liquid domains of cell membrane, and 5) Synthesis of 4 fluorene-labeled phosphoramidites and their site-specific ODN incorporations evidencing high sensitivity to protic media and pH. Labeled sequences exhibited a far-red emission with modest quantum yields in line with their strong charge transfer character. In DNA duplexes, the dye efficiently base-discriminated opposite cytidine and thymidine. A preliminary application of the DNA fluorescent marker involved testing it as a mega-Stokes shift donor in an emissive FRET pair in combination with Dy681 acceptor. The FRET demonstrated a ratiometric turn-on in NIR region with a shift of 300 nm

Fluorène

Push-pull colorant

Palladium

CuAAC

Biocapteurs

Membranes

Lipides

Acides nucléiques

Fluorene

Push-pull dye

Palladium

CuAAC

Biosensor

Membrane

Lipids

Nucleic acids

Design, Synthesis, And Characterization Of Novel Hydrophilic Fluorene-based Derivatives For Bioimaging Applications

Nguyen, Dao

01 January 2009

In this work, hydrophilic fluorene-based derivatives that contain ethylene oxide substituents, have been synthesized and characterized for potential use as new fluorophores for bioimaging applications and for fluorescence sensing of heavy metals. Symmetrical and unsymmetrical fluorene derivatives based on structural types of acceptor-pi-acceptor, acceptor-pi-donor, and donor-pi-donor were characterized by TGA, UV-vis absorption, fluorescence emission, lifetime, anisotropy, and two-photon absorption (2PA) cross section. They were found to possess high thermal stability, high photostability, high fluorescence quantum yields, and generally large two-photon absorption cross sections, making them quite suitable for new probes in single-photon absorption and two-photon absorption fluorescence microscopy imaging. Novel hydrophilic fluorene derivatives were synthesized from fluorene in multiple steps employing the metal-catalyzed Heck coupling reaction, the Stille reaction, the Sonogashira reaction, the Ullmann condensation reaction, and "click" chemistry. To increase the hydrophilicity of the new compounds, ethylene oxide substituents were utilized for to impart water solubility. An alternative alkylation methodology using ethyleneoxy tosylates was introduced for the synthesis of ethylene oxide-containing fluorene derivatives. Several of these hydrophilic derivatives were incubated into various cell lines as new probes for both conventional and two-photon absorption fluorescence bioimaging. These compounds were biocompatible, exhibiting low cytotoxicity as determined by cell viability studies, and displayed colocalization for selected cellular organelles. In addition, hydrophilic bis(1,2,3-triazolyl)fluorene derivatives were found to exhibit sensitive fluorescence responses in the presence of certain heavy metal, and were selective for sensing zinc and mercury over other a number of other metal ions relevant to living cells or other biological environments. The UV-vis absorption and fluorescence emission spectra of the complexes exhibited a blue-shifted absorption and emission for selective metal chelation upon binding to zinc and mercury(II) ions, resulting in an approximately two-fold enhanced fluorescence response. Fluorescence titration studies revealed that the complexes of 1:2 and 1:3 ligand to metal formed with binding constant values of 108 and 1014 for zinc and mercury ions, respectively. Finally, preliminary experiments were performed to explore the possibility of employing select hydrophilic fluorene-based derivatives in the synthesis of hydrophilic fluorescent gold nanoparticles. Although results are very preliminary, the aim is to use such materials for other biomedical applications, such as surface enhanced scattering resonance and noninvasive photothermal therapy to diagnose and to treat cancers. Thus, this research had led to the discovery of alternative methodologies for synthesis of hydrophilic fluorene derivatives by alkylation with alkyl tosylates and synthesis of hydrophilic fluorescent molecule capped gold nanoparticles. Furthermore, several novel hydrophilic fluorene-based derivatives were synthesized and characterized for their linear and nonlinear photophysical properties, and are now available for further examination of their bioimaging and sensing applications.

Two-photon absorbing dye

Hydrophilic fluorene derivative

Fluorescence bioimaging probe

Metal ion sensing

Zinc and mercury sensing

1

2

3-triazole derivative

Chemistry

Cristallochimie de nouveaux polymères de coordination chiraux poreux à corps central fluorène pour la séparation et la catalyse énantiosélective : synthèses, structures cristallines et réactivité / Cristallochemistry of new chiral coordination polymers with fluorene core for enantioselective separation and catalysis : synthesis, crystal structures and reactivity

Robin, Julien

16 December 2013

Ce travail porte sur la cristallochimie de polymères de coordination poreux, ou Metal-Organic Frameworks (MOFs), pour la séparation et la catalyse énantiosélective. Les molécules chirales sont d'une importance capitale et jouent un rôle important dans la reconnaissance moléculaire. Il est donc nécessaire de pouvoir synthétiser un seul énantiomère ou de pouvoir séparer un mélange. La particularité des polymères de coordination à bénéficier d'une partie organique est la possibilité d'introduire des fragments chiraux dans la structure-même des matériaux. Nous avons décidé d'introduire la chiralité dans les MOFs par utilisation de ligands carboxylates originaux chiraux à cœur fluorène. Le premier chapitre de ce mémoire est consacré à l'étude bibliographique des MOFs avec une description des concepts de cette chimie qui permet de comprendre la stratégie mise en place dans cette étude. Le deuxième chapitre décrit la stratégie de synthèse des ligands ainsi que leurs caractérisations. Les trois chapitres suivants décrivent la synthèse, les structures cristallines et les caractérisations physico-chimiques de séries de MOFs regroupés par métal utilisé pour leur élaboration (Zn, Cd et Cu). Ces trois chapitres exposent les problématiques généralement rencontrées avec les MOFs, comme la perte de porosité par interpénétration des réseaux, et les stratégies mises en place pour les contourner, comme l'augmentation de la taille et de la fonctionnalité des ligands utilisés. Enfin la réactivité thermique et chimique des MOFs a été investiguée par diffraction des rayons X par la poudre afin de comprendre les mécanismes réactionnels et la création éventuelle de sites acides en vue d'applications en catalyse. Les techniques expérimentales sont détaillées dans le dernier chapitre de ce mémoire. Enfin un récapitulatif de cette étude est présenté afin de conclure sur la stratégie exposée dans ce mémoire et les perspectives offertes par cette étude. / This work deals with crystallochemistry of new porous coordination polymers or Metal-Organic Frameworks (MOFs) for enantioselective separation and catalysis. Chiral molecules are of a key role in molecular recognition as a consequence the ability to synthesize only one enantiomer or to separate a mixture is priority for chemistry. The particularity of coordination polymers to possess an organic part gives the possibility to introduce chiral fragments in the material structure. We decided to introduce chirality on MOFs by using originals chiral carboxylates ligands with fluorene core. The first chapter is devoted to the bibliographic study of porous coordination polymers. The second chapter describes the ligands synthesis strategy and characterizations. The next three chapters group the crystal structures and physicochemical characterizations of coordination polymers according to the metal used for their preparation (Zn, Cd et Cu). These three chapters explore also the general issues related to MOFs as the loss of porosity consequent to frameworks interpenetration, and strategies implemented to circumvent, such as increasing the size and functionality of the ligands used. Finally the thermal and chemical reactivity of MOFS has been investigated by powder X rays diffraction in order to understand reactions mechanisms and eventually the creation of acid sites for catalytic applications. The experimental technics are detailed in the last chapter. Finally a summary of this work closes this thesis showing the future perspectives of this work.

Nouveaux MOFs chiraux

Structures cristallines

Design et topologie

Réactivité thermique et chimique

Diffraction des rayons X

Ligands fluorène carboxylates

New chiral MOFs

Crystal structures

Design and topology

Thermal and chemical reactivity

X rays diffraction

Carboxylate fluorene ligands

Gas Phase Infrared Spectroscopy of Large Aromatic Molecules : Fermi Resonance in the C-H Stretching Region

Chakraborty, Shubhadip

January 2015

In this thesis, I have investigated gas phase infrared spectroscopy of environmentally as well as astrophysical important large organic molecules such as naphthalene, methy-lated naphthalene, fluorine, methyalted fluorine etc. which are commonly known as polycyclic aromatic hydrocarbons (PAHs). Depending upon the molecular weight these organic molecules can exist both in gaseous as well as in the particulate state at room temperature hence they are the major environmental pollutants. They are also responsible for the unidentified infrared emission bands in the interstellar medium. Chapter 1 provides a brief introduction to my thesis work. A detailed literature survey on the importance, abundance of the PAHs in the environment as well as various spectroscopic techniques useful for identifying the PAHs has been done. Since the objective of my thesis work is to assign the observed fundamental infrared bands of large organic molecules with the help of high level quantum mechanical calculations, a brief introduction to the various high level quantum mechanical techniques that I have used in assigning the bands have been described in this chapter. In Chapter 2 I have presented the experimental and the theoretical methodologies in details. The chapter begins with a detailed description of the experimental procedure used for recording the infrared spectrum of these molecules followed by the theoretical methodologies used for the assignment of the observed infrared bands as well as for identifying the Fermi resonances. In Chapters 3 and 4, of this thesis I have recorded infrared spectrum of 1-and 2-methylnaphthalene (1-and 2-MN), fluorine (FL), 1-methylfluorene (1-MFL) and 1,8-dimethylfluorene (1,8-DMF) in the gas phase. The observed bands were assigned with the help of scaled harmonic frequency, scaled quantum mechanical harmonic force field (SQMFF) and enharmonic frequency calculations. The first two methods are based on the harmonic approximation, whereas the enharmonic frequency calculation is based on the standard second order perturbation theory. All these calculations gave me a partial fit to the fundamental bands in both aromatic and aliphatic C-H stretching as well as in the non C-H stretching region. At the end of both the chapters an error analysis in fitting the spectrum from all the three different calculations have been presented. Evidently the non linear least square fitting method employed in SQMFF calculation gives much better agreement between the experiment and theory than the other two methods. It has been observed in the experimental spectrum of methylated naphthalene that the band structure near the C-H stretch around 3000 cm−1 is very complicated and many bands and shoulders remain unassigned by the methods described in Chapters 3 and 4. Fermi resonance is one of the potential reason for the complicated band structure in this region. In Chapter 5, I have taken naphthalene and have investigated the Fermi resonance around the C-H stretching region using an effective vibrational hamiltonian (EVH) approach. In this method I have constructed an EVH consisting of 8 C-H stretches and 8 H-C-C in-plane bend overtones and 28 H-C-C in-plane bend combination modes as the basis. Both type 1 (stretch overtone) and type 2 (stretch combination) Fermi resonances were investigated. Calculated frequencies belonging to B1u and B2u irreducible representation were compared with the observed bands. Many bands and shoulders have been assigned as the overtone and combination modes of low frequency H-C-C bend motion obtained from the EVH approach. How-ever some bands remain unassigned in this method. This is perhaps due to the neglect of the carbon framework motion in the construction of the EVH. To improve upon the results obtained from the EVH formalism I included the carbon frame degrees of freedom and have carried out a full variation treatment in curvilinear coordinates. I have considered the 8 C-H stretches and 8 H-C-C in-plane bends of naphthalene as local mode oscillators and 17 coordinates belonging to the carbon framework motion as curvilinear normal mode oscillators. A quartic hamiltonian in a mixed local mode -normal mode basis was constructed including up to three body terms in both kinetic and potential energy part. The hamiltonian was subsequently recast into the ladder operator form and diagonal zed in a symmetry adapted basis with polyad constraints. Frequencies so obtained were compared to the experiment All these findings have been presented in Chapter 6 of this thesis. The concluding remark of the thesis and the future direction is presented in Chapter 7

Gas Phase Infrared Spectroscopy

Aromatic Molecules Infrared Spectroscopy

Polycylic Aromatic Hydrocarbons

Gas-Phase Aromaic Molecules

Fermi Resonance

Organic Molecules

Infrared Spectroscopy

C-H Stretching

Naphthalene

Fluorene

1-methylafluorene

1,8-dimethylfluorene

Inorganic and Physical Chemistry

Organic Fillers for Solid Rocket Fuel / Organiska tillsatser för fasta raketbränslen

Bladholm, Viktor

January 2018

Idag är de vanligaste använda raketerna flytande-bränsle- och fast-bränsle- raketer. Flytande-bränsle-raketer har fördelen att det kan manövreras men de har en komplex design och problem med förvaring. Fast-bränsle-raketer har en enkel design och kan förvaras men de har en miljöpåverkan och bränslet kan vara svårhanterligt. En tredje typ av raketer, hybridraketer, kan kombinera enkelheten från fasta-bränsle-raketer med manövreringsbarheten från vätske-bränsle-raketer. Trots fördelarna med hybridraketer används de inte på grund av att bränslet har låg regressionshastighet och låg densitet. Organiska additiv har visat sig förbättra dessa egenskaper. 50 organiska additiv granskades med avseende på deras specifika impuls, densitet, kostnad och användarvänlighet. De mest lovande organiska additiven utvärderades sedan experimentellt. Termogravimetrisk analys (TGA), isotermviktförlust, kompatibilitet och differentiell svepkalorimetri (DSC) användes. Resultaten indikerar att hexamin, fluorene, anthracene och 1,4-dicyanobenzene har mest potential att förbättra bränslet i hybridraketer. / Liquid propellant and solid propellant rockets are the most commonly used rockets Liquid propellant rockets have the advantage of being manoeuvrable with a high specific performance while they exhibit problems with storage and a complex design. Solid propellant rockets offer simplicity and are storable while they have a large environmental impact and could be difficult to handle. A third type of rocket, hybrid propellant rocket has the potential to combine the simplicity of solid propellant rocket with the manoeuvrability of liquid propellant rockets. While the hybrid propellant rocket offers advantages over liquid propellant and solid propellant rocket it have problems with its fuel which have a low regression rate and low density. Organic fillers were evaluated since they may increase in the regression rate and the density of the solid fuel. 50 organic fillers were assessed with regards to their specific impulse, density, cost and handling properties. The organic fillers with the most promising properties were then experimentally evaluated. Thermogravimetric analysis (TGA), isothermal weight loss test, compatibility test and differential scanning calorimetry analysis were conducted. The results indicate that hexamine, fluorene, anthracene and 1,4-dicyanobenzene are the most suitable organic fillers of those evaluated..

Hybrid rocket propellant

fuel formulation

organic fillers

hexamine

fluorene

anthracene

1

4-dicyanobenzene

Hybridraketer

bränsleformulering

organiska additiv

hexamin

fluoren

anthracen

1

4-dicyanobenzen

Polymer Technologies

Polymerteknologi

Textile, Rubber and Polymeric Materials

Textil-, gummi- och polymermaterial

Crystal structure of 9,9-di­ethyl-9H-fluorene-2,4,7-tricarbaldehyde

Seidel, Pierre, Schwarzer, Anke, Mazik, Monika

12 July 2024

The title compound, C20H18O3, crystallizes in the space group P21/c with one mol­ecule in the asymmetric unit of the cell. The fluorene skeleton is nearly planar and the crystal structure is composed of mol­ecular layers extending parallel to the (302) plane. Within a layer, one formyl oxygen atom participates in the formation of a Carene—H...O bond, which is responsible for the formation of an inversion symmetric supra­molecular motif of graph set R22(10). A second oxygen atom is involved in an intra­molecular Carene—H...O hydrogen bond and is further connected with a formyl hydrogen atom of an adjacent mol­ecule. A Hirshfeld surface analysis indicated that the most important contributions to the overall surface are from H...H (46.9%), O...H (27.9%) and C...H (17.8%) inter­actions.

info:eu-repo/classification/ddc/547

ddc:547

Fluorenderivate

Kristallstruktur

Wasserstoffbrückenbindung

Akzeptorsubstituierte Oligothiophene und Fluorene für die Anwendung in organischen Solarzellen

Wrackmeyer, Marion Sofia

20 July 2011

In der vorliegenden Arbeit wurden Thiophenoligomere nach dem Konzept Akzeptor – Donator – Akzeptor (A-D-A) und Donator – Akzeptor – Donator (D-A-D) synthetisiert und umfassend charakterisiert. Oligothiophene unterschiedlicher Kettenlänge stellen dabei den Donatoranteil des Moleküls dar, während 2,2-Dicyanovinyle (DCV), 1,3,2-2H-Dioxaborine (DOB), 2,1,3-Benzothiadiazole (BTDA) die Akzeptorstruktur im Molekül repräsentieren. Diese Materialien sollen als Absorber in der intrinsischen Schicht von organischen Solarzellen (OSC) eingesetzt werden. Zusätzliche Untersuchungen an DOB-substituierten Fluorenen, die als Elektronentransportmaterialien in der n-Schicht von OSC Anwendung finden sollten, erwiesen sich in diesem Fall nicht als vielversprechend. Alle untersuchten Verbindungen wurden, abhängig von ihrer Löslichkeit bzw. Verdampfbarkeit im Vakuum, durch Absorption in Lösung und im dünnen Film, durch Cyclovoltammetrie (CV) und durch DFT-Rechnung charakterisiert. Die thermische Stabilität wurde durch TG/DTA-Messungen untersucht. Die Ladungsträgerbeweglichkeit der DCV-Verbindungen wurde in organischen Feldeffekttransistoren untersucht, sowie Solarzellen mit verschiedenen Schichtdicken der Quinquethiophenverbindung DCV2-5T als Donatormaterial der intrinsischen Schicht angefertigt. Eine gezielte Modifikation der Verbindungen durch Wahl des Akzeptors und die Länge des aromatischen Systems ermöglichte die Synthese von Molekülen mit abstimmbaren Eigenschaften. Eine bathochrome Verschiebung des Absorptionsmaximums kann durch eine Vergrößerung des π-Systems erreicht werden. CV-Messungen und DFT-Rechnungen zeigen, dass E(LUMO) maßgeblich vom Akzeptor bestimmt wird, während E(HOMO) mehr durch den Donatorteil des Moleküls beeinflusst wird. Diese Eigenschaften sind unabhängig vom Aufbau (A-D-A oder D-A-D) der Verbindungen. Bezüglich der thermischen Stabilität sind die D-A-D – Verbindungen gegenüber den A-D-A – Verbindungen zu favorisieren. Ein weiterer wichtiger Schlüsselpunkt der Arbeit ist die Erkenntnis, dass die bisher verwendeten Alkylketten am Rückgrat des Oligothiophens die Löcherbeweglichkeit der Verbindungen stark herabsetzen. Zwei Solarzellen in einer m-i-p– Anordnung (Metall – intrinsisch – p-dotiert) erreichen mit dem DCV2-5T (Schichtdicke 6 bzw. 10 nm) als Donatormaterial eine Effizienz von 2.8 %. Die Zellen zeichnen sich durch einen hohen Füllfaktor (bis zu 58 %) aus und erreichen eine Leerlaufspannung von bis zu 1.03 V. Die Interpretation der J-V-Kennlinien führt zu der Annahme, dass die Exzitonendiffusionslänge kürzer als 10 nm ist, weswegen es bei einer höheren Schichtdicke des Thiophens zu einer Rekombination der erzeugten Exzitonen kommt. / The present thesis deals with thiophene oligomers according to the concept acceptor-donor-acceptor (A-D-A) or donor-acceptor-donor (D-A-D). Thiophenes represent the donor-part of the molecule whereas the acceptor-part can either be 2,2-dicyanovinyle (DCV), 1,3,2-2H-dioxaborine (DOB) or 2,1,3-benzothiadiazole (BTDA). These materials are supposed to work as absorbers in the intrinsic layer of an organic small molecular solar cell (OSC). Additional studies on substituted fluorenes, however, known to work as electron transport material in the n-layer of OSC, have not proved promising in this case. Depending on their solubility in organic solvents or their suitability for vacuum sublimation, all compounds were characterised by absorption measurements in solution and thin film, cyclic voltammetry (CV) and DFT-calculations. The thermal stability was determined by thermal analysis. Charge carrier mobility measurements using organic field effect transistors were applied to investigate the DCV-compounds. The quinquethiophene DCV2-5T was used in varying thicknesses as a donor material in the intrinsic absorbing layer of an OSC. Systematic variation of the compounds by applying different accepting groups and/or modifying the lengths of the aromatic systems permitted the synthesis of molecules with tunable properties. A bathochromic shift of the absorption maximum can be achieved by increasing the number of thiophene units. CV measurements and DFT calculations reveal a dependency of E(LUMO) on the accepting group whereas E(HOMO) is more influenced by the donor part of the molecule. These properties are independent from the concept A-D-A or D-A-D. Concerning thermal stability, D-A-D compounds seem to be more stable than A-D-A materials. Another important point is the knowledge that alkyl chains used so far at the backbone of the oligothiophene chain significantly decrease the hole mobility. Two OSCs arranged in an m-i-p-stack (metal – intrinsic – p-doped) with the quinquethiophene DCV2-5T (layer thickness 6 and 10 nm) both reach an efficiency of 2.8 %. They show a high fillfactor (up to 58 %) and reach an open circuit voltage of 1.03 V. Interpretation of the other parameters leads to the assumption that the exciton diffusion length of the molecule is shorter than 10 nm. This results in a recombination of the excitons in the cell with the thicker layer of DCV2-5T.

organische Solarzelle

Synthese

Oligothiophen

Fluoren

Dioxaborin

Dicyanovinyl

Benzothiadiazol

Cyclovoltammetrie

DFT Rechnung

Thermogravimetrische Analyse

OFET Messungen

organic solar cell

synthesis

oligothiophene

fluorene

dioxaborine

dicyanovinyle

benzothiadiazole

cyclic voltammetry

DFT calculation

thermogravimetric analyse

OFET measurement

ddc:530

rvk:VE 6300

rvk:UP 3050

Nové přístupy při elektrochemickém stanovení cizorodých látek a studiu jejich interakce s DNA / Novel Approaches in Electrochemical Determination of Xenobiotic Compounds and in Study of Their Interaction with DNA

Hájková, Andrea

January 2016

Presented Ph.D. Thesis is focused on the development of analytical methods applicable for determination of selected xenobiotic compounds and for monitoring DNA damage they can induce. The main attention has been paid to the development and testing of non-toxic electrode materials for preparation of miniaturized electrochemical devices and novel electrochemical DNA biosensors. 2-Aminofluoren-9-one (2-AFN) was selected as a model environmental pollutant, which belongs to the group of hazardous genotoxic substances. Its carcinogenic and mutagenic effects may represent a risk to living and working environment. 2-AFN has one oxo group, where the cathodic reduction occurs, and one amino group, where the anodic oxidation occurs. The voltammetric behavior of 2-AFN in the negative potential region was investigated at a mercury meniscus modified silver solid amalgam electrode (m-AgSAE) representing a non-toxic and more mechanically robust alternative to mercury electrodes. This working electrode was subsequently used for the development of a newly designed miniaturized electrode system (MES), which has many benefits as the possibility of simple field measurements, easy portability, and the measurement in sample volume 100 µL. Moreover, a glassy carbon electrode (GCE) was used for further investigation of...

Akzeptorsubstituierte Oligothiophene und Fluorene für die Anwendung in organischen Solarzellen

Wrackmeyer, Marion Sofia

08 July 2011

In der vorliegenden Arbeit wurden Thiophenoligomere nach dem Konzept Akzeptor – Donator – Akzeptor (A-D-A) und Donator – Akzeptor – Donator (D-A-D) synthetisiert und umfassend charakterisiert. Oligothiophene unterschiedlicher Kettenlänge stellen dabei den Donatoranteil des Moleküls dar, während 2,2-Dicyanovinyle (DCV), 1,3,2-2H-Dioxaborine (DOB), 2,1,3-Benzothiadiazole (BTDA) die Akzeptorstruktur im Molekül repräsentieren. Diese Materialien sollen als Absorber in der intrinsischen Schicht von organischen Solarzellen (OSC) eingesetzt werden. Zusätzliche Untersuchungen an DOB-substituierten Fluorenen, die als Elektronentransportmaterialien in der n-Schicht von OSC Anwendung finden sollten, erwiesen sich in diesem Fall nicht als vielversprechend. Alle untersuchten Verbindungen wurden, abhängig von ihrer Löslichkeit bzw. Verdampfbarkeit im Vakuum, durch Absorption in Lösung und im dünnen Film, durch Cyclovoltammetrie (CV) und durch DFT-Rechnung charakterisiert. Die thermische Stabilität wurde durch TG/DTA-Messungen untersucht. Die Ladungsträgerbeweglichkeit der DCV-Verbindungen wurde in organischen Feldeffekttransistoren untersucht, sowie Solarzellen mit verschiedenen Schichtdicken der Quinquethiophenverbindung DCV2-5T als Donatormaterial der intrinsischen Schicht angefertigt. Eine gezielte Modifikation der Verbindungen durch Wahl des Akzeptors und die Länge des aromatischen Systems ermöglichte die Synthese von Molekülen mit abstimmbaren Eigenschaften. Eine bathochrome Verschiebung des Absorptionsmaximums kann durch eine Vergrößerung des π-Systems erreicht werden. CV-Messungen und DFT-Rechnungen zeigen, dass E(LUMO) maßgeblich vom Akzeptor bestimmt wird, während E(HOMO) mehr durch den Donatorteil des Moleküls beeinflusst wird. Diese Eigenschaften sind unabhängig vom Aufbau (A-D-A oder D-A-D) der Verbindungen. Bezüglich der thermischen Stabilität sind die D-A-D – Verbindungen gegenüber den A-D-A – Verbindungen zu favorisieren. Ein weiterer wichtiger Schlüsselpunkt der Arbeit ist die Erkenntnis, dass die bisher verwendeten Alkylketten am Rückgrat des Oligothiophens die Löcherbeweglichkeit der Verbindungen stark herabsetzen. Zwei Solarzellen in einer m-i-p– Anordnung (Metall – intrinsisch – p-dotiert) erreichen mit dem DCV2-5T (Schichtdicke 6 bzw. 10 nm) als Donatormaterial eine Effizienz von 2.8 %. Die Zellen zeichnen sich durch einen hohen Füllfaktor (bis zu 58 %) aus und erreichen eine Leerlaufspannung von bis zu 1.03 V. Die Interpretation der J-V-Kennlinien führt zu der Annahme, dass die Exzitonendiffusionslänge kürzer als 10 nm ist, weswegen es bei einer höheren Schichtdicke des Thiophens zu einer Rekombination der erzeugten Exzitonen kommt.:Abstract 1 Kurzfassung 2 Tagungsbeiträge und Veröffentlichungen 3 1 Einleitung und Problemstellung 5 2 Physikalische Grundlagen 9 2.1 Organische Halbleiter 9 2.2 Aufbau und Funktionsweise organischer Solarzellen 11 2.3 Wichtige Parameter zur Charakterisierung organischer Solarzellen 16 2.4 Messmethoden zur Bestimmung der Grenzorbitale 17 2.4.1 Cyclovoltammetrie (CV) 17 2.4.2 DFT-Rechnungen 22 3 Motivation 25 4 Bisheriger Kenntnisstand 29 4.1 Absorbermaterialien der intrinsischen Schicht 29 4.1.1 Phthalocyanine (MPc (M = Zn, Cu)) 29 4.1.2 Oligothiophene 31 4.1.3 Fulleren C60 33 4.2 n-Leiter 35 4.2.1 Fulleren C60 (dotiert) 35 4.2.2 Bathophenanthrolin (BPhen) und Bathocuproin (BCP) 36 4.2.3 Transparenter n-Leiter: Naphthalentetracarboxyl Dianhydrid (NTCDA) 38 4.3 „Bandgap engineering“ – Zusammenspiel zwischen Donator und Akzeptor 39 4.3.1 Dicyanovinyle 41 4.3.2 1,3,2-(2H)-Dioxaborine 41 4.3.3 2,1,3-Benzothiadiazole 43 4.4 Thiophene 44 4.4.1 Ringaufbauende Reaktionen 44 4.4.2 Substitutionsmöglichkeiten am Thiophen 47 4.4.3 Übergangsmetallkatalysierte Kupplungsreaktionen zum Aufbau von Oligothiophenketten 48 4.5 Fluorene 49 5 Ergebnisse und Diskussion 51 5.1 Akzeptorsubstituierte Oligothiophene 51 5.1.1 Akzeptor-Donator-Akzeptor-Strukturen 51 5.1.1 Donator-Akzeptor-Donator-Strukturen 57 5.2 Fluorene 64 5.3 Unsymmetrische Donator-Akzeptor-Verbindungen mit neuen Akzeptoren – Ausgangspunkt für zukünftige Forschung 65 5.4 Auswertung und Vergleich physikalischer Messungen 66 5.4.1 Absorptionsmessungen in Lösung und im Film 66 5.4.2 Ergebnisse aus Cyclovoltammetrie-Messungen 75 5.4.3 Ergebnisse aus DFT-Rechnungen 85 5.4.4 Thermogravimetrie und Differentialthermoanalyse-Messungen 91 5.4.5 Beweglichkeitsmessungen 104 5.4.6 Eintragung der erhaltenen Ergebnisse ins Spinnennetzdiagramm und ihre Bewertung 107 5.4.7 Solarzelle mit DCV2-5T 116 6 Zusammenfassung und Ausblick 121 6.1 Zusammenfassung 121 6.2 Ausblick 123 7 Experimenteller Teil 125 7.1 Allgemeine Angaben 125 7.2 Synthese und Charakterisierung der akzeptorsubstituierten Oligomere 128 7.3 Synthese und Charakterisierung der Fluorenverbindungen 160 7.4 Synthese und Charakterisierung unsymmetrischer Donator-Akzeptor-Verbindungen mit neuen Akzeptoren 167 8 Anhang 173 8.1 Abkürzungs- und Trivialnamenverzeichnis 173 8.2 Literaturverzeichnis 176 Danksagung 181 Versicherung 183 / The present thesis deals with thiophene oligomers according to the concept acceptor-donor-acceptor (A-D-A) or donor-acceptor-donor (D-A-D). Thiophenes represent the donor-part of the molecule whereas the acceptor-part can either be 2,2-dicyanovinyle (DCV), 1,3,2-2H-dioxaborine (DOB) or 2,1,3-benzothiadiazole (BTDA). These materials are supposed to work as absorbers in the intrinsic layer of an organic small molecular solar cell (OSC). Additional studies on substituted fluorenes, however, known to work as electron transport material in the n-layer of OSC, have not proved promising in this case. Depending on their solubility in organic solvents or their suitability for vacuum sublimation, all compounds were characterised by absorption measurements in solution and thin film, cyclic voltammetry (CV) and DFT-calculations. The thermal stability was determined by thermal analysis. Charge carrier mobility measurements using organic field effect transistors were applied to investigate the DCV-compounds. The quinquethiophene DCV2-5T was used in varying thicknesses as a donor material in the intrinsic absorbing layer of an OSC. Systematic variation of the compounds by applying different accepting groups and/or modifying the lengths of the aromatic systems permitted the synthesis of molecules with tunable properties. A bathochromic shift of the absorption maximum can be achieved by increasing the number of thiophene units. CV measurements and DFT calculations reveal a dependency of E(LUMO) on the accepting group whereas E(HOMO) is more influenced by the donor part of the molecule. These properties are independent from the concept A-D-A or D-A-D. Concerning thermal stability, D-A-D compounds seem to be more stable than A-D-A materials. Another important point is the knowledge that alkyl chains used so far at the backbone of the oligothiophene chain significantly decrease the hole mobility. Two OSCs arranged in an m-i-p-stack (metal – intrinsic – p-doped) with the quinquethiophene DCV2-5T (layer thickness 6 and 10 nm) both reach an efficiency of 2.8 %. They show a high fillfactor (up to 58 %) and reach an open circuit voltage of 1.03 V. Interpretation of the other parameters leads to the assumption that the exciton diffusion length of the molecule is shorter than 10 nm. This results in a recombination of the excitons in the cell with the thicker layer of DCV2-5T.:Abstract 1 Kurzfassung 2 Tagungsbeiträge und Veröffentlichungen 3 1 Einleitung und Problemstellung 5 2 Physikalische Grundlagen 9 2.1 Organische Halbleiter 9 2.2 Aufbau und Funktionsweise organischer Solarzellen 11 2.3 Wichtige Parameter zur Charakterisierung organischer Solarzellen 16 2.4 Messmethoden zur Bestimmung der Grenzorbitale 17 2.4.1 Cyclovoltammetrie (CV) 17 2.4.2 DFT-Rechnungen 22 3 Motivation 25 4 Bisheriger Kenntnisstand 29 4.1 Absorbermaterialien der intrinsischen Schicht 29 4.1.1 Phthalocyanine (MPc (M = Zn, Cu)) 29 4.1.2 Oligothiophene 31 4.1.3 Fulleren C60 33 4.2 n-Leiter 35 4.2.1 Fulleren C60 (dotiert) 35 4.2.2 Bathophenanthrolin (BPhen) und Bathocuproin (BCP) 36 4.2.3 Transparenter n-Leiter: Naphthalentetracarboxyl Dianhydrid (NTCDA) 38 4.3 „Bandgap engineering“ – Zusammenspiel zwischen Donator und Akzeptor 39 4.3.1 Dicyanovinyle 41 4.3.2 1,3,2-(2H)-Dioxaborine 41 4.3.3 2,1,3-Benzothiadiazole 43 4.4 Thiophene 44 4.4.1 Ringaufbauende Reaktionen 44 4.4.2 Substitutionsmöglichkeiten am Thiophen 47 4.4.3 Übergangsmetallkatalysierte Kupplungsreaktionen zum Aufbau von Oligothiophenketten 48 4.5 Fluorene 49 5 Ergebnisse und Diskussion 51 5.1 Akzeptorsubstituierte Oligothiophene 51 5.1.1 Akzeptor-Donator-Akzeptor-Strukturen 51 5.1.1 Donator-Akzeptor-Donator-Strukturen 57 5.2 Fluorene 64 5.3 Unsymmetrische Donator-Akzeptor-Verbindungen mit neuen Akzeptoren – Ausgangspunkt für zukünftige Forschung 65 5.4 Auswertung und Vergleich physikalischer Messungen 66 5.4.1 Absorptionsmessungen in Lösung und im Film 66 5.4.2 Ergebnisse aus Cyclovoltammetrie-Messungen 75 5.4.3 Ergebnisse aus DFT-Rechnungen 85 5.4.4 Thermogravimetrie und Differentialthermoanalyse-Messungen 91 5.4.5 Beweglichkeitsmessungen 104 5.4.6 Eintragung der erhaltenen Ergebnisse ins Spinnennetzdiagramm und ihre Bewertung 107 5.4.7 Solarzelle mit DCV2-5T 116 6 Zusammenfassung und Ausblick 121 6.1 Zusammenfassung 121 6.2 Ausblick 123 7 Experimenteller Teil 125 7.1 Allgemeine Angaben 125 7.2 Synthese und Charakterisierung der akzeptorsubstituierten Oligomere 128 7.3 Synthese und Charakterisierung der Fluorenverbindungen 160 7.4 Synthese und Charakterisierung unsymmetrischer Donator-Akzeptor-Verbindungen mit neuen Akzeptoren 167 8 Anhang 173 8.1 Abkürzungs- und Trivialnamenverzeichnis 173 8.2 Literaturverzeichnis 176 Danksagung 181 Versicherung 183

info:eu-repo/classification/ddc/530

ddc:530