Nové diketopyrrolopyrroly pro organickou fotovoltaiku / Novel diketopyrrolopyrroles for organic photovoltaics

Hrabal, Michal

January 2013

The aim of this diploma thesis is to conduct optical and photovoltaic characterization of derivatives of diketopyrrolopyrrole (DPP) as materials suitable for fabrication of bulk heterojunction organic solar cells. The charge transfer from donor material (DPP) to acceptor material (PCBM) is studied by a quenching of fluorescence. The photovoltaic response is studied by current – voltage characteristic which can tell us crucial parameters such as shor circuit current density Jsc, open circuit voltage Voc, fill factor FF and power conversion efficiency PCE. Optical characterization was carried out for symmetrical DPP derivatives (U69 and U97) which both contained diphenylaminstilbene moiety and differed in N-alkyl group. On the other hand photovoltaic characterization was conducted for analogous but asymmetrical materials (U70 and U99). Material U29 was characterized as well but its properties proved to be very poor. Both these characterizations tell us that materials with shorter solubilization groups (U69 and U99) are more suitable candidates. Achieved PCE for U70 was 0,74 % and for U99 up to 1,39 %. From these values one can say that small molecule organic materials can be used for fabrication of solar cells.

Theoretical Studies of Structural and Electronic Properties of Donor-Acceptor Polymers

Günther, Florian

17 September 2018

The development of new electronic devices requires the design of novel materials since the existing technologies are not suitable for all applications. In recent years, semiconducting polymers (SCPs) have evolved as fundamental components for the next generation of costumer electronics. They provide interesting features, especially flexibility, light weight, optical transparency and low-cost processability from solution. The research presented in this thesis was devoted to theoretical studies of donor-acceptor (DA) copolymers formed by electron-deficient 3,6-(dithiophene-2-yl)-diketopyrrolo[3,4-c]pyrrole (TDPP) and different electron-rich thiophene compounds. This novel type of SCPs has received a lot of attention due to experimental reports on very good electronic properties which yielded record values for organic field-effect transistor applications. In order to get a deeper understanding of the structural and electronic properties, the main objective of this work was to study this material type on the atomic scale by means of electronic structure methods. For this, density functional theory (DFT) methods were used as they are efficient tools to consider the complex molecular structure. This work comprises three main parts: a comparative study of the structural and the electronic properties of TDPP based DA polymers obtained by means of different theory levels, the calculation of the intermolecular charge transfer between pi-pi stacked DA polymer chains based on the Marcus transfer theory and investigations of molecular p-doping of TDPP based DA polymers. For the first, DFT using different functionals was compared to the density functional based tight binding (DFTB) method, which is computationally very efficient. Although differences in structural properties were observed, the DFTB method was found to be the best choice to study DA polymers in the crystalline phase. For the second, correlations between the molecular structure and the reorganization energy are found. Moreover, the dependency of the electronic coupling element on the spatial shape of the frontier orbitals is shown. Furthermore, a Boltzmann-type statistical approach is introduced in order to enable a qualitative comparison of different isomers and chemical structures. For the last part, the p-doping properties of small, multi-polar dopant molecules with local dipole provided by cyano groups were investigated theoretically and compared with experimental observations. The one with the strongest p-doping properties was studied in this work for the first time on a theoretical basis. Comparing these different p-dopants, rich evidence was found supporting the experimentally observed doping strength.

info:eu-repo/classification/ddc/540

ddc:540

Elaboration d'édifices multi-chromophoriques à base de DPPs et BODIPYs : vers des applications photovoltaïques / Elaboration of multi-chromophoric scaffolds based on DPPs and BODIPYs : towards photovoltaic applications

Heyer, Elodie

18 July 2014

Les travaux réalisés au cours de cette thèse ont consisté en l’élaboration d’édifices multi-chromophoriques pour des applications en cellules solaires organiques. La conception de ces nouveaux matériaux a été guidée par trois paramètres : (i) l’augmentation de la planéité pour une meilleure organisation intermoléculaire ; (ii) la modulation de la fenêtre spectrale d’absorption pour capter un maximum de photons ; (iii) l’enrichissement électronique des matériaux pour faciliter la séparation des charges. Notre choix s’est porté sur les hydrocarbures aromatiques polycycliques, de part leurs propriétés structurantes bien connues. La synthèse du 2-bromodibenzo[g,p]chrysène a été réalisée par des réactions de type Scholl intramoléculaires, puis sa dérivatisation a permis de synthétiser des matériaux correspondants. La mono-fonctionnalisation d’un synthon benzo[1,2-b:3,4-b’:5,6-b’’]trithiophène a également été effectuée. Des BODIPYs dithiényles α-fusionnés ont ensuite été synthétisés selon une procédure originale de couplages oxydants intramoléculaires, permettant d’obtenir des composés plans, fonctionnalisés et fonctionnalisables, tout en contournant la chimie contraignante du pyrrole. L’obtention de dyades et triades à base de DPPs, de BODIPY et de triphénylamines ont permis d’obtenir des composés panchromatiques et d’étudier les phénomènes d’extinction de la fluorescence par spectroscopies statiques et ultrarapides. Un dernier projet a porté sur des édifices de type D-A-D à base de BODIPYs et amines aromatiques tertiaires. / The projects developed in this thesis consisted in the elaboration of multi-chromophoric scaffolds towards applications in bulk heterojunction organic solar cells. The design of the materials was guided by three main parameters: (i) the increase of the planarity to observe a better intermolecular organization; (ii) the broadening of the spectral absorption window in order to maximize the number of absorbed photons; (iii) the increase of the electronic density in order to facilitate the charge separation. First, the structural properties of mono-functionalized polycyclic aromatic hydrocarbons (PAH) were investigated with the synthesis of 2-bromodibenzo[g,p]chrysene by Scholl type reactions, followed by its functionalization and the development of related materials. Then we also focused on another PAH: benzo[1,2-b:3,4-b’:5,6-b’’]trithiophene and its subsequent functionalization. α-Fused dithienyl BODIPYs were then built according to an original procedure based on intramolecular oxidative coupling reactions. Substituted and functionalizable planar compounds were obtained bypassing the instability of the pyrrole ring chemistry. Subsequently, the elaboration of dyads and triads based on DPPs, BODIPY and triphenylamines led to the examination of the fluorescence quenching process by static and ultrafast spectroscopies. A last project consisted in the study and applications of D-A-D edifices based on BODIPYs and ternary aromatic amines.

Cellules photovoltaïques

BODIPY

Dicétopyrrolopyrrole

Triphénylamine

Dibenzo[g,p]chrysène

Transfert d’énergie

Transfert d’électron

Solar cells

BODIPY

Diketopyrrolopyrrole

Triphenylamine

Dibenzo[g,p]chrysène

Energy transfer

Electron transfer

547.2