Novel N-type Π-conjugated Polymers for all-polymer solar cells / Nouveaux polymères conjugués π de type N pour les cellules solaires entièrement polymères

He, Yinghui

29 August 2017

Les cellules solaires organiques (OSC) apparaissent comme une technologie prometteuse pour les énergies renouvelables en raison de leur poids léger, leur grande flexibilité et leur processus de fabrication peu coûteux. Jusqu'à présent, la plupart des OPV ont utilisé des dérivés de Fullerene, tels que PCBM ou PC71BM, en tant qu'accepteur d'électrons dans la couche active, qui s'est avéré être un goulet d'étranglement pour cette technologie. Par conséquent, le développement d'accepteurs non-fullerene est devenu la nouvelle force motrice de ce domaine. Les cellules solaires tout-polymères (tous-PSC) qui ont les avantages de la robustesse, de la stabilité et de l'accessibilité ont déjà atteint PCE jusqu'à 9%. Ainsi, le développement de nouveaux matériaux accepteurs est impératif pour améliorer les performances de tous les PSC. / Organic solar cells (OSCs) appear as a promising technology for renewable energy owing to their light weight, great flexibility and low-cost fabrication process. So far most of the OPV shave been using fullerene derivatives, such as PCBM or PC71BM, as the electron acceptor in the active layer, which have been proven to a bottleneck for this technology. Therefore,developing non-fullerene acceptors has become the new driving force for this field. All-polymer solar cells (all-PSCs) that have the advantages of robustness, stability and tunability have already achieved PCE up to 9%. Thus, developing novel acceptor materials is imperative for improving the performance of all-PSCs.

Semi-conducteurs de polymères

Accepteurs de polymères

Polymer semiconductors

Polymer acceptors

All-polymer solar cells

H-bond acceptor parameters for anions

Pike, Sarah J., Hutchinson, J.J., Hunter, C.A.

20 February 2020

Yes / UV/vis absorption titrations have been used to investigate the formation of H-bonded complexes between anionic H-bond acceptors (HBAs) and neutral H-bond donors (HBDs) in organic solvents. Complexes formed by three different HBDs with 15 different anions were studied in chloroform and in acetonitrile. The data were used to determine self-consistent HBA parameters (β) for chloride, bromide, iodide, phosphate diester, acetate, benzoate, perrhenate, nitrate, triflimide, perchlorate, hexafluorophosphate, hydrogen sulfate, methyl sulfonate, triflate, and perfluorobutyl sulfonate. The results demonstrate the transferability of H-bond parameters for anions between different solvents and different HBD partners, allowing reliable prediction of anion recognition properties in other scenarios. Carboxylates are the strongest HBAs studied, with β parameters (≈ 15) that are significantly higher than those of neutral organic HBAs, and the non-coordinating anion hexafluorophosphate is the weakest acceptor, with a β parameter comparable to that of pyridine. The effects of ion pairing with the counter-cation were found to be negligible, provided small polar cations were avoided in the less polar solvent (chloroform). There is no correlation between the H-bonding properties of the anions and the pKa values of the conjugate acids. / Engineering and Physical Sciences Research Council (EPSRC).

H-bonded complexes

Anionic H-bond acceptors (HBAs)

Neutral H-bond donors (HBDs)

Anions

H-bond parameters

Electronic and structural properties of interfaces between electron donor & acceptor molecules and conductive electrodes

Bröker, Benjamin

06 January 2011

Die vorliegende Arbeit behandelt Fragestellungen aus der Organischen Elektronik, in der die Ladungsträgerinjektion in alle Arten von Bauteilen kritisch von der elektronischen und morphologischen Struktur der Grenzflächen zwischen Elektrode und den konjugierten organischen Molekülen (KOM) abhängt. Näher betrachtet wurden: die Energieniveauanpassung mit starken (i) Elektronendonatoren und (ii) -akzeptoren und (iii) die dichteabhängige Umorientierung einer molekularen Monolage. Zur Analyse wurden Photoelektronen- und Reflektionsabsorptionsinfrarotspektroskopie angewandt. Weitere Informationen konnten durch Modellierung mit Dichtefunktionaltheory gewonnen werden, die über Kollaborationen zur Verfügung standen. (i) Das Konzept der optimierten Energieniveauanpassung mit starken Elektronenakzeptoren konnte auf Donatoren erweitert und damit erfolgreich von der Anode zur Kathode transferiert werden. Auch hier führte der Ladungstransfer zu einem Dipol über die Grenzfläche, womit die Austrittsarbeit um bis zu 2.2 eV reduziert wurde. Als Resultat konnte die Elektroneninjektionsbarriere in nachfolgende Materialien entscheidend verringert werden (bis zu 0.8 eV). (ii) Ein bis dato unerforschter starker Elektronenaktzeptor [hexaaza-triphenylene-hexacarbonitrile (HATCN)] wurde vollständig verschiedenen Elektroden charakterisiert. HATCN zeigte dabei eine bessere Performance verglichen mit derzeit üblichen Materialien (starke Austrittsarbeitsanhebung und Verringerung der Lochinjektionsbarriere um bis zu 1.0 eV). (iii) Zusätzlich konnte mit HATCN gezeigt werden, dass eine liegende molekulare Monolage durch Erhöhung der Moleküldichte in eine stehende Monolage umgewandelt werden kann. Dies führte zu einer Änderung der chemischen Bindung zum Metall und damit zu einer starken Modifikation der elektronischen Struktur der Grenzfläche. Die vorliegende Arbeit liefert damit wertvolle Informationen für das Verständnis der Grenzfläche zwischen Elektrode und KOM in der Organischen Elektronik. / The present work is embedded in the field of organic electronics, where charge injection into devices is critically determined by the electronic and structural properties of the interfaces between the electrodes and the conjugated organic materials (COMs). Three main topics are addressed: energy level tuning with new and strong electron (i) donor and (ii) acceptor materials and (iii) the density dependent re-orientation of a molecular monolayer and its impact on the energy level alignment. To study these topics photoelectron and reflection absorption infrared spectroscopy were used. Moreover, additional information was obtained from density functional theory modelling, which was available through collaboration. (i) A concept of optimizing the energy level alignment at interfaces with strong molecular acceptors was extended to donor materials and thus successfully transferred from the anode to the cathode side of the device. Also in this case, charge transfer leads to a chemisorbed molecular monolayer. Due to the dipole across the interface, the work function of the electrode is reduced by up to 2.2 eV. Consequently, a reduced electron injection barrier into subsequently deposited materials is achieved (up to 0.8 eV). (ii) A yet unexplored strong electron acceptor material [i.e. hexaazatriphenylene- hexacarbonitrile (HATCN)] is thoroughly investigated on various surfaces. HATCN shows superior performance as electron acceptor material compared to presently used materials (e.g. work function modification and hole injection barrier reduction by up to 1 eV). (iii) Also with HATCN, the orientation of a molecular monolayer is observed to change from a face-on to an edge-on depending on layer density. This is accompanied by a re-hybridization of molecular and metal electronic states, which significantly modifies the interface electronic properties. All findings presented are valuable for the understanding of electrode-COM interfaces in organic electronics.

Photoelektronenspektroskopie

organische Elektronik

Infrarotspektroskopie

Akzeptoren

photoelectron spectroscopy

organic electronics

infrared spectroscopy

acceptors

530 Physik

29 Physik, Astronomie

UP 9330

UP 7700

ddc:530

Elementary processes in layers of electron transporting Donor-acceptor copolymers : investigation of charge transport and application to organic solar cells

Schubert, Marcel

January 2014

Donor-acceptor (D-A) copolymers have revolutionized the field of organic electronics over the last decade. Comprised of a electron rich and an electron deficient molecular unit, these copolymers facilitate the systematic modification of the material's optoelectronic properties. The ability to tune the optical band gap and to optimize the molecular frontier orbitals as well as the manifold of structural sites that enable chemical modifications has created a tremendous variety of copolymer structures. Today, these materials reach or even exceed the performance of amorphous inorganic semiconductors. Most impressively, the charge carrier mobility of D-A copolymers has been pushed to the technologically important value of 10 cm^{2}V^{-1}s^{-1}. Furthermore, owed to their enormous variability they are the material of choice for the donor component in organic solar cells, which have recently surpassed the efficiency threshold of 10%. Because of the great number of available D-A copolymers and due to their fast chemical evolution, there is a significant lack of understanding of the fundamental physical properties of these materials. Furthermore, the complex chemical and electronic structure of D-A copolymers in combination with their semi-crystalline morphology impede a straightforward identification of the microscopic origin of their superior performance. In this thesis, two aspects of prototype D-A copolymers were analysed. These are the investigation of electron transport in several copolymers and the application of low band gap copolymers as acceptor component in organic solar cells. In the first part, the investigation of a series of chemically modified fluorene-based copolymers is presented. The charge carrier mobility varies strongly between the different derivatives, although only moderate structural changes on the copolymers structure were made. Furthermore, rather unusual photocurrent transients were observed for one of the copolymers. Numerical simulations of the experimental results reveal that this behavior arises from a severe trapping of electrons in an exponential distribution of trap states. Based on the comparison of simulation and experiment, the general impact of charge carrier trapping on the shape of photo-CELIV and time-of-flight transients is discussed. In addition, the high performance naphthalenediimide (NDI)-based copolymer P(NDI2OD-T2) was characterized. It is shown that the copolymer posses one of the highest electron mobilities reported so far, which makes it attractive to be used as the electron accepting component in organic photovoltaic cells.par Solar cells were prepared from two NDI-containing copolymers, blended with the hole transporting polymer P3HT. I demonstrate that the use of appropriate, high boiling point solvents can significantly increase the power conversion efficiency of these devices. Spectroscopic studies reveal that the pre-aggregation of the copolymers is suppressed in these solvents, which has a strong impact on the blend morphology. Finally, a systematic study of P3HT:P(NDI2OD-T2) blends is presented, which quantifies the processes that limit the efficiency of devices. The major loss channel for excited states was determined by transient and steady state spectroscopic investigations: the majority of initially generated electron-hole pairs is annihilated by an ultrafast geminate recombination process. Furthermore, exciton self-trapping in P(NDI2OD-T2) domains account for an additional reduction of the efficiency. The correlation of the photocurrent to microscopic morphology parameters was used to disclose the factors that limit the charge generation efficiency. Our results suggest that the orientation of the donor and acceptor crystallites relative to each other represents the main factor that determines the free charge carrier yield in this material system. This provides an explanation for the overall low efficiencies that are generally observed in all-polymer solar cells. / Donator-Akzeptor (D-A) Copolymere haben das Feld der organischen Elektronik revolutioniert. Bestehend aus einer elektronen-reichen und einer elektronen-armen molekularen Einheit,ermöglichen diese Polymere die systematische Anpassung ihrer optischen und elektronischen Eigenschaften. Zu diesen zählen insbesondere die optische Bandlücke und die Lage der Energiezustände. Dabei lassen sie sich sehr vielseitig chemisch modifizieren, was zu einer imensen Anzahl an unterschiedlichen Polymerstrukturen geführt hat. Dies hat entscheidend dazu beigetragen, dass D-A-Copolymere heute in Bezug auf ihren Ladungstransport die Effizienz von anorganischen Halbleitern erreichen oder bereits übetreffen. Des Weiteren lassen sich diese Materialien auch hervorragend in Organischen Solarzellen verwenden, welche jüngst eine Effizienz von über 10% überschritten haben. Als Folge der beträchtlichen Anzahl an unterschiedlichen D-A-Copolymeren konnte das physikalische Verständnis ihrer Eigenschaften bisher nicht mit dieser rasanten Entwicklung Schritt halten. Dies liegt nicht zuletzt an der komplexen chemischen und mikroskopischen Struktur im Film, in welchem die Polymere in einem teil-kristallinen Zustand vorliegen. Um ein besseres Verständnis der grundlegenden Funktionsweise zu erlangen, habe ich in meiner Arbeit sowohl den Ladungstransport als auch die photovoltaischen Eigenschaften einer Reihe von prototypischen, elektronen-transportierenden D-A Copolymeren beleuchtet. Im ersten Teil wurden Copolymere mit geringfügigen chemischen Variationen untersucht. Diese Variationen führen zu einer starken Änderung des Ladungstransportverhaltens. Besonders auffällig waren hier die Ergebnisse eines Polymers, welches sehr ungewöhnliche transiente Strom-Charakteristiken zeigte. Die nähere Untersuchung ergab, dass in diesem Material elektrisch aktive Fallenzustände existieren. Dieser Effekt wurde dann benutzt um den Einfluss solcher Fallen auf transiente Messung im Allgemeinen zu beschreiben. Zusätzlich wurde der Elektronentransport in einem neuartigen Copolymer untersucht, welche die bis dato größte gemesse Elektronenmobilität für konjugierte Polymere zeigte. Darauf basierend wurde versucht, die neuartigen Copolymere als Akzeptoren in Organischen Solarzellen zu implementieren. Die Optimierung dieser Zellen erwies sich jedoch als schwierig, konnte aber erreicht werden, indem die Lösungseigenschaften der Copolymere untersucht und systematisch gesteuert wurden. Im Weiteren werden umfangreiche Untersuchungen zu den relevanten Verlustprozessen gezeigt. Besonders hervorzuheben ist hier die Beobachtung, dass hohe Effizienzen nur bei einer coplanaren Packung der Donator/Akzeptor-Kristalle erreicht werden können. Diese Struktureigenschaft wird hier zum ersten Mal beschrieben und stellt einen wichtigen Erkenntnisgewinn zum Verständnis von Polymersolarzellen dar.

Organische Solarzellen

Ladungstransport

Donator-Akzeptor-Copolymere

Alternative Akzeptorpolymere

Polymer-Kristalle

organic solar cells

charge transport

Donor-acceptor copolymers

alternative electron acceptors

polymer crystal orientation

Physics

S?ntese de precursores da adenofostina A: estudo para a s?ntese de an?logos potencialmente ativos

Lage, Guilherme Luiz da Costa

26 October 2012

Submitted by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2015-02-19T13:34:45Z No. of bitstreams: 5 gui.pdf: 4235660 bytes, checksum: a4da31a1b3421bf1fd546fc015611c65 (MD5) license_url: 52 bytes, checksum: 3d480ae6c91e310daba2020f8787d6f9 (MD5) license_text: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) license.txt: 2110 bytes, checksum: b4c884761e4c6c296ab2179d378436d4 (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2015-02-20T10:39:27Z (GMT) No. of bitstreams: 5 gui.pdf: 4235660 bytes, checksum: a4da31a1b3421bf1fd546fc015611c65 (MD5) license_url: 52 bytes, checksum: 3d480ae6c91e310daba2020f8787d6f9 (MD5) license_text: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) license.txt: 2110 bytes, checksum: b4c884761e4c6c296ab2179d378436d4 (MD5) / Made available in DSpace on 2015-02-20T10:39:27Z (GMT). No. of bitstreams: 5 gui.pdf: 4235660 bytes, checksum: a4da31a1b3421bf1fd546fc015611c65 (MD5) license_url: 52 bytes, checksum: 3d480ae6c91e310daba2020f8787d6f9 (MD5) license_text: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) license.txt: 2110 bytes, checksum: b4c884761e4c6c296ab2179d378436d4 (MD5) Previous issue date: 2013-12-17 / Realizou-se a s?ntese de doadores e receptores glicos?dicos in?ditos que foram utilizados numa s?ntese convergente de um precursor da adenofostina A. Igualmente, a converg?ncia das sintonas tinha como prop?sito principal o estudo de rea??es de glicosila??o, ou seja, foram explorados dois m?todos de forma??o de liga??es glicos?dicas: o m?todo do tricloroacetoimidato e o m?todo de isomeriza??o do doador glicos?dico al?lico. A prepara??o dos aceptores e doadores glicos?dicos envolveu sequ?ncias de prote??o e desprote??o de grupos hidroxila a partir da adenosina e da D-glicose, respectivamente, privilegiando-se a forma??o de doadores armados e a observa??o da estereoqu?mica no carbono anom?rico. Os an?meros ? e ? formados nesta sequ?ncia de s?ntese foram separados, mas somente os an?meros ? foram motivo de caracteriza??o pelos m?todos de an?lise usuais de espectrometria RMN 1D e 2D, de massas e no infravermelho. Dessa forma, foram sintetizados dois aceptores glicos?dicos (17) e (18) e cinco doadores glicos?dicos (9), (11?), (11?), (13?) e (13?), sendo todas as subst?ncias in?ditas. Dentre os ensaios de glicosila??o somente o m?todo do tricloroacetoimidato produziu o produto desejado (glicosila??o entre 11? e 17) cuja caracteriza??o estrutural encontra-se em andamento. / Disserta??o (Mestrado) ? Programa de P?s-Gradua??o em Qu?mica, Universidade Federal dos Vales do Jequitinhonha e Mucuri, 2012. / ABSTRACT This works discusses the synton?s synthesis of the, unpublished glycosidic donors and aceptors that have been used in a convergent synthesis of a precursor of adenophostin A. Furthermore, the convergence of syntons main purpose was to study the glycosylation, ie been explored two methods of forming glycosidic linkages, the method of trichloroacetimidate and method of isomerization of the allyl glycoside donor. The preparation of donors and acceptors glycosidic sequences involving protection and deprotection of hydroxyl groups from adenosine and D-glucose, respectively, favoring the formation of armed donors and observation of stereochemistry at anomeric carbon. The and anomers formed in this synthesis sequence were separated, but the only reason anomers were characterization by usual methods of analysis of 1D and 2D NMR spectroscopy, mass and infrared. Thus, we synthesized two glycoside acceptors (17) and (18) and five donor glycoside (9), (11), (11), (13) and (13), all substances are novel. Among the glycosylation assays only the method of tricloroacetimidate gave the desired product (glycosylation between 11 and 17) that is the object of characterizing and whose data has not yet been completed and conclusive.

Ci?ncias Exatas e Biol?gicas

Qu?mica Org?nica

Adenophostin A

Synthesis

Glycosidic donors

Glycosidic acceptors

Glycosylation

1H NMR

13C NMR spectroscopy

The characterization of bulk as-grown and annealed ZnO by the Hall effect

Kassier, Gunter Horst

25 July 2007

A fully automated Temperature Dependent Hall (TDH) measurement setup has been assembled for the purposes of this study. This TDH setup is capable of measuring samples in the 20 K to 370 K temperature range. Sample sizes of up to 20 mm × 20 mm can be accommodated by the custom designed and manufactured sample holder. Samples with a resistance in the 1Ω to 250 MΩ range can be measured with this setup provided that the mobility of the sample is greater than 1 cm²/Vs. The computer program controlling the automated measurement processwas written in LabView™ version 6.1. Single crystal Zinc Oxide (ZnO) was the material under investigation in this study. Bulk ZnO samples grown by three different methods, namely pressurized melt growth, seeded chemical vapor transport (SCVT) growth and hydrothermal growth, were measured in the 20 K to 370 K range. The effect of annealing in argon atmosphere in the 550 ºC to 930 ºC range was investigated on all three ZnO types. In addition, hydrogen-implanted layers on semi-insulating hydrothermally grown ZnO were studied. These samples were annealed in the 200 ºC to 400 ºC range and Hall measurements in the 20 K to 330 K range were performed. Programs were written to fit, wherever possible, the obtained temperature dependent carrier concentration and mobility profiles to suitable theoretical models. The carrier concentration data was fitted to a multi-donor single acceptor charge balance equation for the purpose of extracting donor concentrations and activation energies. Before fitting, the data was corrected for the Hall scattering factor and, where necessary, for two-layer effects particularly a degenerate surface conduction channel that developed through annealing on the SCVT-grown and hydrothermally grown samples. The acceptor concentrations of the samples were obtained by fitting the mobility data to a model based on D.L. Rode’s method of solving the Boltzmann transport equation. Scattering mechanisms included in the model were piezoelectric and deformation potential acoustic modes, polar optic modes and ionized impurity scattering. It was found that the mobility data did not fit the model very well without assigning questionable values to other parameters, in this case the deformation potential. Plausible values for the acceptor concentration were however obtained. The carrier concentration data fitted the model well, but due to the large number of parameters to be extracted (up to six parameters in the case of three donors) there was often not much certainty in the extracted values This study shows that TDH analysis is a valuable tool to assess the quality of semiconductors. Bulk and degenerate surface (or interfacial) conduction are separated with relative ease, and shallow defect concentrations as well as compensation level concentrations could be extracted. The generally observed uncertainty in values obtained in the multi-parameter regression of carrier concentration data indicates that supplementary techniques such as photoluminescence are needed to support results obtained by the TDH technique. / Dissertation (MSc (Physics))--University of Pretoria, 2007. / Physics / MSc / unrestricted

Carrier concentration

Electron transport

Boltzmann transport equation

Mobility

Nonlinear regression

Zinc oxide

Hall effect

Electrically active defects

Surface conduction

Semiconductor statistics

Acceptors

Donors

UCTD

The Molecular Organisation of Non-Fullerene Acceptors: from Single Crystals to Solar Cells

Mondelli, Pierluigi

22 April 2024

The growing concern about climate change is pushing the global community towards greener solutions to cut down the greenhouse gases emissions. As such, producing energy from sustainable sources becomes mandatory to achieve the net zero emissions goal by 2050, as set by the United Nations. Solar panels offer the possibility to generate power from light harvesting, but it’s the use of organic materials that offers great advantages in terms of functionality and life-cycle. In particular, organic semiconductors properties such as their tunable colours, lightweight, flexibility, and semi-transparency enable the use of Organic Photovoltaics (OPV) in building façades and contribute to the realisation of Net Zero Energy Buildings (NZEB). However, the OPV scalability to terawatts of installed capacity is still non competitive with respect to its cost when compared to the conventional inorganic silicon-based technologies. One of the reasons is the lower performance achieved by the state-of-the-art OPV devices, whose active layer (the film where the light is absorbed and converted into free charges, electrons and holes, i.e. electricity) is typically composed of a blend made of an electron donor material (conjugated polymer) and a smaller compound as electron acceptor (Non-Fullerene Acceptor, NFA). A crucial factor determining the low performance of OPVs made with NFAs is related to their poor charge transport properties (e.g. low electron mobility and high recombination), which are intimately related to how these molecules are arranged in the solid film, i.e. their molecular organisation. Great progress was made in the field of organic electronics to obtain higher mobility by understanding the crystalline behaviour of organic molecules from their single crystals, and using these knowledge in the design of new compounds with the desired properties. At the beginning of this thesis project, little was known about the solid-state organisation of NFAs as very few single crystal structures were disclosed. For these reasons, we were first dedicated to the study of the intrinsic propensity of NFAs to crystallise by growing single crystals. At this fundamental level, we found that the NFA packing geometry is strongly affecting the isotropy of the charge transport, and potentially the electron mobility. On a following step, we developed a methodology to track the NFA packing geometry as we move from ideal systems (single crystals) to the most complex scenario of the solar cell active layer films, which include a donor and an acceptor (NFA) component. We discovered that NFAs generally tracks their packing motif from single crystals to blend films, and we quantified the benefit of using crystalline compounds with specific packing geometry in terms of electron mobility. Interestingly, we also found that these motifs are not necessary to obtain high performance in organic solar cells as the efficiency is mostly driven by charge recombination and domain purity, rather than electron mobility.

info:eu-repo/classification/ddc/530

ddc:530

Azadipyrromethene-based Metal Complexes as 3D Conjugated Electron Acceptors for Organic Solar Cells

Senevirathna, Wasana

02 September 2014

No description available.

Alternative Energy

Chemistry

Energy

Molecular Chemistry

Molecular Physics

Molecules

Morphology

Organic Chemistry

Physical Chemistry

Préparation et caractérisation de nouveaux éléments pour la conception de nanohybrides organiques /inorganiques

Rivoal, Morgane

07 December 2012

Actuellement, l'élaboration de matériaux nanohybrides organiques/inorganiques suscite l'engouement de nombreux chercheurs du fait de leurs diverses applications potentielles. Le but de ce projet de thèse a été de préparer et caractériser de nouveaux éléments inorganiques et organiques permettant la conception de nanohybrides multi-fonctionnels possédant des propriétés répondant aux problématiques actuelles. Dans cet objectif, nous avons préparé des nanoparticules d'oxyde de zinc (ZnO) en tant que composant inorganique par ablation laser. La surface de ces NPs peut être modifiée par des composés organiques possédant un groupe d'ancrage acide carboxylique. Nous avonssynthétisé et caractérisé des dérivés viologènes, bien connu comme de forts accepteurs d'électron, possédant le groupe d'ancrage. Les nanohybrides de ZnO/viologènes ont été préparés et caractérisés par diverses techniques de spectroscopie. Nous avons développé des voies de synthèse efficaces permettant d'obtenir une série de nouveaux hétérocycles possédant des propriétés de donneur d'électron : dérivés de dibenzo[2,3:5,6]pyrrolizino[1,7-bc]indolo[1,2,3-lm]carbazole. Ces nouvelles molécules présentent une forte stabilité thermique et une forte fluorescence dans le domaine du visible. Leurs propriétés d'absorption à un et deux photons (Proche-infrarouge) ainsi que leur habilité de donneur d'électron ont été étudiés expérimentalement et à l'aide de calculs de mécanique quantique. Les éléments organiques et inorganiques étudiés sont des motifs de choix pour l'élaboration future de nanohybrides utilisables pour diverses applications comme dans le domaine de l'énergie photovoltaïque ou encore l'imagerie médicale. / Currently, the development of organic/inorganic nanohybrid materials arouses the enthusiasm of many researchers owing to their potential applications. The aim of this thesis was to prepare and characterize new inorganic and organic components for the future design of new multi-functional nanohybrids with properties responding to the current challenges. For this purpose, we have prepared nanoparticles of zinc oxide (ZnO) as the inorganic component by laser ablation. The surface of these nanoparticles can be modified by an organic component bearing the carboxylic group as an anchor. We synthesized and characterized a number of viologen derivatives, well known as strong electron acceptors, involving the anchoring groups. The nanohybrids of ZnO/viologens were prepared and characterized by various spectroscopic techniques. We have developed efficient synthetic routes toward a series of new heterocycles possessing the electron donating properties: derivatives of dibenzo[2,3:5,6]pyrrolizino[1,7-bc]indolo[1,2,3-lm]carbazole. These new molecules exhibit high thermal stability and strong fluorescence in the visible range. Their one- and two-photon (Near-infrared) absorption properties and electron donor ability were investigated experimentally and by means of quantum mechanical calculations. The studied organic and inorganic components can serve as promising building blocks of choice for the future development of nanohybrids used in various application domains such as in the fields of photovoltaics and medical imaging.

Nanohybrides organiques/inorganiques

Nanoparticules de ZnO

Donneurs et accepteurs d’électrons

Viologènes

Indolocarbazoles

Fluorescence

Organic/inorganic nanohybrids

ZnO nanoparticles

Organic donors and acceptors

Viologens

Indolocarbazoles

Fluorescence

One- and Two-photon optical properties

Comportamento eletroquímico de nitrofuranos em eletrodos de diamante dopado com boro-modelo para o mecanismo de ação de nitrocompostos com atividades antichagásica / Electrochemical behaviour of nitrofurans on highly boron doped diamond Electrodes-model for the action mechanism of the nitrocompounds with antichagasic activity

Julião, Murilo Sérgio da Silva

09 March 2007

O comportamento eletroquímico do Nitrofural (NFZ) foi estudado em eletrodos de pasta de carbono, carbono vítreo e diamante altamente dopado com boro (EDADB) em tampão Britton-Robinson (BR) usando a voltametria cíclica. Os melhores resultados foram obtidos em EDADB, no qual foi possível estabilizar o radical aniônico (R-NO2•&#8254) em meio predominantemente aquoso, como também estudar a interação entre o R-NO2•‾ a glutationa (GSH), a L-cisteína (Cis) e o O2. Somente na superfície do EDADB, o NFZ foi diretamente reduzido à amina derivada (R-NH2) no intervalo de 2,02 ≤ pH ≤ 4,03 num processo envolvendo seis (6,0 ± 0,4) elétrons e seis prótons. Na faixa de 7,04 &#8804 pH ≤ 12 e meio predominantemente aquoso, a etapa de redução desmembrou-se em seus dois componentes: a redução do NFZ ao nitro radical aniônico (R-NO2•‾) e posterior redução deste ao derivado hidroxilamínico (R-NHOH) em processos envolvendo um e três (3,1 ± 0,1) elétrons respectivamente. No sentido anódico da varredura dos voltamogramas cíclicos registrados em pH 8,06, observou-se a oxidação da hidroxilamina ao derivado nitroso (R-NO), num processo envolvendo 2 (1,7 ± 0,2) elétrons e 2 prótons. Além disto, um novo pico de oxidação não relatado na literatura em qualquer material de eletrodo foi detectado em pH ≤ 8,06, que foi observado não importando se o NFZ havia sido previamente reduzido ou não. O cálculo do número de elétrons, n, envolvido em cada etapa eletroquímica foi satisfatoriamente estimado usando-se a equação de Randles-Sevcik. Na presença de [Tiol] ≤ 3,7 x 10-2 mol L-1, o NFZ é reduzido ao aduto R-NO-Tiol em um processo eletroquímico envolvendo dois elétrons e dois prótons. Por outro lado, o O2 atua como um aceptor de R-NO2•‾ e a constante de equilíbrio para a transferência monoeletrônica do R-NO2•‾ para o oxigênio, kO2, é 60. O processo é catalítico e pode ser utilizado para a determinação analítica de NFZ na faixa de 9,9 x 10-7 ≤ [NFZ] ≤ 1,1 x 10-5 mol L-1 em pH 8,06, com sensibilidade amperométrica de 2,2 x 104 µA L mol-1 cm-2 e limite de detecção de 3,4 x 10-7 mol L-1. Os parâmetros analíticos foram similares aqueles obtidos em pH 4,0 usando a redução direta do NFZ à respectiva amina derivada em um processo envolvendo seis elétrons e seis prótons. A caracterização do processo de redução total do NFZ em meio aquoso e velocidades de varredura relativamente baixas, 100 mV s-1, somente foi possível devido às características superficiais intrínsecas do EDADB, o qual estabiliza o radical livre, R-NO2•‾, permitindo trabalhar numa ampla janela de potencial, sem haver perda do sinal de oxidação do R-NO2•‾. / The electrochemical behaviour of nitrofural (NFZ) at carbon paste, glassy carbon and highly boron doped diamond (HBDD) electrodes was studied in Britton- Robinson (BR) buffer using cyclic voltammetry. The best results were obtained at HBDD electrodes, in which it was possible to stabilize the radical anion (R-NO2•‾) in predominantly aqueous medium as well as to study the interaction between the radical anion and glutathione (GSH), L-cysteine (Cys), and O2. Only at HBDD surface, NFZ was directly reduced to the amine derivative (R-NH2) in the pH range of 2.02 to 4.03 in a process involving six (6.0 ± 0.4) electrons and six protons. In the range of pH 7.04 to 12 and, predominantly aqueous medium, the reduction step split into its two components: the reduction of NFZ to the nitro radical anion (R-NO2•‾) and reduction of R-NO2•‾ to hydroxylamine derivative (R--NHOH) in processes involving one and three (3.1 ± 0.1) electrons respectively. On the anodic scan of the cyclic voltammograms and at pH 8.06, it was observed the oxidation of the hydroxylamine to the nitroso derivative (R-NO), in a process involving 2 (1.7 ± 0.2) electrons and 2 protons. In addition and unreported in the literature on any electrode material, was the detection of a new oxidation peak at pH > 8.06, which was observed regardless of whether NFZ had been previously reduced or not. The calculation of n, number of electrons, involved in each electrochemical step was satisfactorily accomplished using the Randles-Sevcik equation. In presence of [Thiol] ≤ 3.7 x 10-2 mol L-1 NFZ is directly reduced to R-NO---Thiol adducts in an electrochemical process involving two electrons and two protons. On the other side, O2 acts as a R-NO2•‾ scavenger and the equilibrium constant for the electron transfer from nitro radical to oxygen, kO2, is 60. The process is catalytic and can be used to the analytical determination of NFZ in the range of 9.9 x 10-7 ≤ [NFZ] ≤ 1.1 x 10-5 mol L-1 at pH 8.0, with amperometric sensitivity of 2.2 x 104 µA L mol-1 cm-2 and detection limit of 3.4 x 10-7 mol L-1. The analytical parameters were similar to those obtained at pH 4.03 using the direct reduction of NFZ to the respective amine derivative in a process involving six electrons and six protons. The characterization of NFZ global reduction process in aqueous medium and at relative low scan rate, 100 mVs-1, was only possible due the intrinsic superficial characteristics of the HBDD electrode, which stabilize the R-NO2•‾ free radical, allowing to work in a large potential window, without losing the R-NO2•‾ oxidation signal.

Aceptores eletrônicos

Electronic acceptors

Free radical

Nitrofural

Nitrofural

Radicais livres

Voltametria e reação catalítica

Voltammetry and catalytic reaction