L'identification et quantification d'additifs dans les carburants et les lubrifiants par HPTLC-MS et techniques de dérivatisation / Identification and quantification of additives in fuels and lubricants by HPTLC-MS and derivatization techniques

Beaumesnil, Mathieu

24 October 2017

Les compagnies pétrolières améliorent les propriétés de leurs produits et en particulier des carburants par l’ajout d’additifs. Un large choix de familles d’additifs est disponible, tels que les antioxydants ou les agents antidétonants. Dans ce travail, la chromatographie sur couche mince haute performance (HPTLC) a été utilisée pour quantifier certains additifs dans le gazole sans aucune préparation d’échantillon. L’HPTLC est une technique d’analyse qui est couramment utilisée afin d’analyser et quantifier des composés en mélange. Pour améliorer la détection des polymères et la qualité du signal, des méthodes de dérivatisation ont été utilisées. Afin de confirmer l’identification des composés et obtenir des informations structurales, un couplage direct entre l’HPTLC et la spectrométrie de masse a été développé. Les sources d’ionisation, comme la source DESI(Desorption Electrospray Ionization), la source DART (Direct Analysis in Real Time) et la source MALDI (Matrix Assisted Laser Desorption Ionization) ont été évaluées. Il est apparu que la source MALDI était la plus adaptée pour la désorption des additifs sur plaque HPTLC. Après des essais et optimisations sur différentes phases stationnaires, une méthode HPTLC-MALDI sur phase cellulose a été développée et a permis de détecter les détergents aux teneurs réelles dans le gazole. Parallèlement, l’HPTLC a été couplé pour la première fois à la source ASAP (Atmospheric Solids Analysis Probe). / Oil companies increase the quality of their products such as fuels by using additives. A large variety of additives can be used, such as antioxidants or antiknock agents. In this study, high performance thin layer chromatography (HPTLC) was used to quantify some additive in diesel fuel without sample preparation. HPTLC is an analytical technique used to characterize and quantify compounds in mixtures. To increase polymer detection and signal quality, derivatization methods were used.In order to confirm the analyte identification and to provide structural information, a method based on the direct coupling of HPTLC to mass spectrometry (MS) was developed. Ionization sources such as DESI (desorption electrospray ionization), DART (direct analysis in real time) and MALDI (matrix assisted laser desorption ionization) were evaluated. It appeared that MALDI was the most suitable source to efficiently desorb the additives on HPTLC plate. After several tests and optimizations on different stationary phases and ionization sources, a HPTLC-MALDI method was developed on cellulose and allowed to detect surfactant in diesel fuel at real concentration. At the same time, ASAP (atmospheric solids analysis probe) was coupled for the first time to HPTLC.

Spectrométrie de masse

Sources d'ionisation

Chromatographie sur couche mince

Polymère

Additif

Gazole

Détergent

Mass spectrometry

Ionization sources

Thin layer chromatography

Polymer

Additive

Diesel fuel

Surfactant

665.53

Analýza lipidů novorozeneckého mázku chromatografickými metodami a hmotnostní spektrometrií / Analysis of vernix caseosa lipids by chromatografic methods and mass spectrometry

Míková, Radka

January 2016

(EN) Vernix caseosa is a white creamy substance that covers the skin of a newborn. It is produced during the third trimester by the skin of the baby and remains there until the age of one or even two weeks. It is uniquely human. In utero, vernix protects the skin from maceration, during the birth it serves as a lubricant and after the delivery it protects the baby against infection and regulates the temperature. As vernix is produced in third trimester, prematurely born infants lack it and this may lead to, among other things, suffering from desiccation and therefore heat loss. It is important to study it thoroughly and to find a suitable substitute of vernix for the preterm infants. Vernix consists of lipids, proteins and 80 % water. This project is aimed at the lipids. Vernix is composed of 10 % of lipids. Basic analytical methods of pocessing vernix were searched. The methods of isolation, separation and transesterification have been optimized for the lipids. For separation, thin-layer chromatography has been chosen. The method of the lipid analysis of intact molecules by MALDI-TOF MS has been optimized for these lipids. The results were confirmed using fragmentation spectra and transesterification. Esterified lipids were measured by gas chromatography coupled with mass spectrometry detection....

Synthèse de couches ultra-minces de siliciures sur silicium cristallin et endommagé étudiée par microscopie et profilométrie en profondeur

Turcotte-Tremblay, Pierre

03 1900

No description available.

a-Si

a-Si

c-Si

c-Si

NiSi

NiSi

Couche mince

Thin layer

Siliciures

Silicide

Microfabrication, Characterization, and Application of Carbon Nanotube Templated Thin Layer Chromatography Plates, and Functionalization of Porous Graphitic Carbon

Jensen, David S.

26 November 2012

This dissertation contains the following sections. Chapter 1 contains a detailed description of the theory of thin layer chromatography (TLC). Chapter 2 describes the benefits and practical considerations of elevated temperatures in liquid chromatography (LC). The porous graphitic carbon (PGC) I modified as part of my work is often used in elevated temperature LC. Chapter 3 shows a thermodynamic analysis of chromatographic retention at elevated temperature, and Chapter 4 contains a closer look at the van 't Hoff equation in LC and how it can be used in retention modeling. In Chapter 5, I describe a new procedure for microfabricating TLC plates that avoids the volume/feature distortions that occurred in our first microfabrication. The primary advance of this work was the priming of the carbon nanotube (CNT) forests with chemical vapor deposition (CVD) carbon and atomic layer deposition (ALD) alumina, which permitted effective ALD-like deposition of SiO2. Chapter 6 describes advancements in the microfabrication process of TLC, which excluded the use of the CVD carbon and Al2O3 coating as described in Chapter 5. The use of ozone, to lightly oxidize the CNT surface, primed the material for direct ALD deposition. Chapter 7 gives a detailed surface analysis of the microfabrication process up to and including the CNT forest. It was noticed that a channeling effect was present during Rutherford backscattering analysis of the CNTs. Additionally, characterization of CNTs using time-of-flight secondary ion mass spectrometry in the negative ion mode showed an odd-even effect for a homologous series of carbon, where the even moieties had a stronger signal. Chapter 8 describes the functionalization of PGC with di-tert-amyl peroxide (DTAP) and its effect on increasing the chromatographic performance as seen by a reduction in the tailing factors of test analytes. Chapter 9 -- 13 are detailed X-ray photoelectron analyses of the thin films and CNTs used in producing microfabricated TLC plates.

Carbon nanotubes

atomic layer deposition

chemical vapor deposition

thin layer chromatography

liquid chromatography

elevated temperature chromatography

van 't Hoff

Biochemistry

Chemistry

Desorption Electrospray Ionization Mass Spectrometry Imaging: Instrumentation, Optimization and Capabilities

Dhunna, Manan

13 March 2014

Desorption Electrospray Ionization Mass spectrometry Imaging (DESI-MSI) is an area of great interest and a promising tool in the field of chemical imaging. It is a powerful, label-free technique, which can determine, map and visualize different molecular compounds on a sample surface. The amount of information acquired in a single DESI-MSI experiment is enormous compared to other techniques, as it can simultaneously detect different compounds with their spatial distribution on the surface. The experiment can be used to produce two-dimensional and three-dimensional images. Chapter 2 focuses on the design and optimization of the setup for performing DESI-MS imaging on various substrates. The proposed setup was tested for its lateral spatial resolution. To provide proof-of-concept of the design, preliminary tests were performed to generate images from commercial thin layer chromatographic plates and photographic paper. Chapter 3 focuses on demonstrating the compatibility of novel microfabricated Thin Layer Chromatography plates (M-TLC plates) for detection with DESI-MSI.

Desorption Electrospray Ionization

DESI

DESI-MSI

M-TLC

Ambient Ionization Mass Spectrometry

Biochemistry

Chemistry

Isolation, characterisation and cytotoxicity of antifungal compounds present in medicinal plants used against crytococcus neoformans in Vhembe District, Limpopo Province

Machaba, Tambudzani Caroline

January 2023

Thesis (Ph.D. (Botany)) -- University of Limpopo, 2023 / The use of medicinal plants as a source of treatment for various ailments including fungal infections is still practised in South Africa and across the globe. Fungal infections especially of Cryptococcus, Candida and Aspergillus species are the main cause of morbidity and mortality worldwide, particularly in developing countries. Traditional medicine is used as a source of remedies worldwide and has contributed extensively towards the development of modern medicine. Twelve selected medicinal plants (Kleinia longiflora DC. Berchemia discolor (Klotzsch) Hemsl., Persea americana Mill., Sansevieria hyacinthoides (L.) Druce, Dichrostachys cinerea (L.) Wright &Arn, Withania somnifera Dunal (Ashgandh), Momordica balsamina L., Lonchocarpus capassa, Pappea capensis, Rhus lancea L. fil, Peltophorum africanum, Maytenus heterophylla (Eckl. & Zeyh.) Robson) were analysed qualitatively for antifungal activities against Aspergillus fumigatus, Candida albicans and Cryptococcus neoformans. The plant materials were extracted with solvents of various polarities such as acetone, dichloromethane, methanol, hexane, and water. Methanol extracted the highest amount of crude extracts from all the plant species as compared to other organic solvents. Chemical components of the extracts were analysed using aluminum backed Thin Layer Chromatography (TLC) plates and developed using three different eluent systems: Ethyl acetate: methanol: water [EMW], Chloroform: ethyl acetate: formic acid [CEF] and Benzene: ethanol: ammonia hydroxide [BEA]. CEF was the best eluent solvent system since it separated more compounds from plant extracts. This indicates that the active compounds were relatively non-polar. More chemical compounds were observed in TLC chromatograms separated with CEF, followed by BEA and EMW. All plant extracts had shown different chemical components when separated from the three solvent systems. The bioautography and serial dilution assays were used to determine the biological activity of plant extracts against the tested microorganisms, respectively. All the tested plant extracts revealed some varying degrees of fungal inhibition, with minimum inhibitory concentrations (MIC) values ranging between 0.02 mg/ml and 2.5 mg/ml. The aqueous extracts had shown some activity against the tested microorganisms. Noteworthy, antifungal activity was observed in acetone, DCM, hexane, and methanol root extracts of D. cinerea against the three tested microorganisms with MIC values ranging between 0.02 mg/ml and 0.04 mg/ml. Furthermore, acetone extracts of D. cinerea and P. africanum had excellent activity against three fungal pathogens with MIC values of 0.02 mg/ml and 0.08 mg/ml. Active compounds were observed in dichloromethane extracts of W. somnifera with Rf values of 0.40 and 0.64. In TLC chromatograms separated with BEA, active compounds were observed in acetone, hexane, and methanol leaf extract of P. americana, this indicates that the fungal compounds were relatively non-polar. No active compounds were observed in plant extracts of K. longiflora. Active compounds were visible in all extracts of P. capensis in TLC chromatograms developed in CEF and EMW. The antioxidant present in plants prevents the free radicals from causing various diseases in humans by inhibiting the oxidation of free radicals at the cellular level. The qualitative and quantitative 1,1-diphenyl-2-picrylhydrazyl (DPPH) methods were used to determine the antioxidant activities of plant extracts. The presence of antioxidant compounds was indicated by yellow bands against the purple background on the TLC plates. More antioxidant compounds were observed in acetone and dichloromethane extracts of S. hyacinthoides developed in BEA compared to other plant species tested. Methanol, hexane, and water extracts of L. capassa revealed good antioxidant activity against DPPH by having a high percentage of inhibition compared to other solvents. Noticeably, extracts of P. africanum possess strong antioxidant activity as compared to other plant species. Solvent-solvent fractionation using column chromatography of the acetone extract led to the isolation of six compounds. The biological activity of the isolated compounds of L. capassa was investigated against the tested pathogenic fungi. The isolated compounds revealed some varying degrees of inhibition to the fungal pathogens. The largest quantity was isolated from compound 1 (80 mg), compound 4 (39 mg), compound 3 (27 mg), compounds 2 and 5 (14 mg) and the least was compound 6 (4.8 mg). However only three compounds were successfully identified as Lupeol (compound 1), Friedelin (compound 3) and 6-(γ,γ-Dimethylallyl)-3’,4’-dimethoxy-6”,6”- dimethylpyrano-[2”,3”:7,8]-flavanone (compound 4). Compounds 2, 5 and were not identified due to some impurities. More importantly, the isolated compounds exhibited good antioxidant activity in qualitative and quantitative scavenging assays, which indicates that isolated compounds of L. capassa can scavenge the free radicals causing fungal infections in humans. The results support the traditional use of the selected plants to combat fungal infections and related ailments by the local people and traditional health practitioners in Vhembe District, Limpopo Province. The (3-(4,5-dimethylthiazol) -2,5-diphenyltetrazoliumbromide) (MTT) assay was used to determine the toxic effects of the plant crude extract and isolated compounds. Lupeol and 6-(γ,γ-Dimethylallyl)-3’,4’-dimethoxy-6”,6”-dimethylpyrano-[2”,3”:7,8]- flavanone revealed the same degree of cytotoxicity against the Vero monkey kidney cells. All the compounds were not toxic with an LC50 value of ˃ 0.2 mg/ml. / University of Limpopo and National Research Foundation

Medicinal plants

Traditional medicine

Modern Medicine

antioxidant compounds

Thin Layer Chromatography

Antibody-dependent cell cytotoxicity

Medicinal plants

Cryptococcus neoformans

Aspergillus

Candida

Growth and biodegradation by Sporidiobolales yeasts in vanillin-supplemented medium

González Gaarslev, Natalia

January 2017

Studies of biodegradation in lignins by basidiomycetes yeasts show the conversion of lignin in various degradation products among which vanillin, a valuable substance, suggested to be a strong inhibitor of both fermentation and growth of yeasts, stands. Sporidiobolales yeasts used in these experiments were aimed to be identified by their highly conserved ITS region as well as studied in vanillinsupplemented medium through, vanillin-supplemented plates, TLC and Neubauer’s chamber to find out which, among the several isolates tested, were the most resistant ones, understand how they take up vanillin and how their growth is affected by the presence of the phenolic compound. Two strains were identified as Rhodotorula babjevae. One of them, L4, together with LS22, Rhodosporidium kratochvilovae, could withstand and biodegrade high concentrations of vanillin, producing biodegradation products with Rf values similar to the ones know for vanillic acid and vanillyl alcohol. Better growth in medium supplemented with small doses of vanillin was found, as well as disparity among the same species and their metabolic features, therefore, herbicides resistance was suggested as a reason for strains divergence. Further morphological-species comparison could also describe if there exist a relation between them. / Estudios sobre la biodegradación de ligninas por levaduras basidiomicetes muestran la conversión de lignina en distintos productos de degradación, entre los cuales se encuentra la vainillina, un fuerte inhibidor de la fermentación y el crecimiento de levaduras. Las levaduras Sporidiobolales utilizadas en estos experimentos han intentado ser identificadas a través de la región ETI, muy conservada, además de estudiadas en medios suplementados con vainillina mediante placas suplementadas con vainillina, CCF y cámara de Neubauer para averiguar cuáles son las cepas más resistentes, entender cómo metabolizan la vainillina y cómo su crecimiento se ve afectado por la presencia de dicho compuesto. Dos cepas fueron identificadas como Rhodotorula babjevae. Una de ellas, L4, junto con con la cepa LS22, Rhodosporidium kratochvilovae, pudieron soportar y biodegradar elevadas concentraciones de vainillina, originando productos de biodegradación con valores de Rf similares a los del ácido vanílico y alcohol vanílico previamente conocidos. Se encontró un crecimiento mejor en medios suplementados con pequeñas dosis de vainillina además de una disparidad entre mismas especies y sus características metabólicas, así, herbicidas han sido sugeridos como una posible causa en dicha divergencia. Una futura comparación morfología-especie podrá describir si existe relación entre ambos.

Sporobolomyces

Vanillin

Internal Transcribed Spacer (ITS)

Thin layer chromatography (TLC)

Neubauer’s chamber

Sporobolomyces

Vainillina

Espaciador Transcribible Interno (ETI)

Cromatografia en capa fina (CCF)

Cámara de Neubauer

Microbiology

Mikrobiologi

Influence des tensioactifs dans la cristallisation du complexe photosynthétique RC-LH1-pufX de Rhodobacter blasticus / Influence of surfactants on the crystallization of the photosynthetic RC-LH1-Puf X complex from Rhodobacter blasticus

Barret, Laurie-Anne

28 June 2013

Ce projet vise à étudier, par une approche pluridisciplinaire, l’influence des la cristallisation des protéines membranaires (PM) en prenant pour protéine modèle le complexe photosynthétique RC-LH1-pufX de Rhodobacter blasticus. Des cristaux de ce complexe avaient été obtenus en présence de dodécyl-!-maltoside (DDM) et avaient diffractés à 8 Å de résolution. L’objectif final est de pouvoir améliorer, de façon rationnelle, la qualité des cristaux du complexe RC-LH1-pufX grâce à une meilleure compréhension des mécanismes mis en jeu. Dans un premier temps, trois tensioactifs dérivés du DDM ont été conçus et synthétisés. L’intérêt est d’augmenter la rigidité et le caractère lipophobe des parties hydrophobes des tensioactifs par rapport au DDM, pour les rendre moins déstabilisants envers la protéine: soit par l’incorporation d’un groupement bicyclohexyle (PCC-maltoside), soit par l’ajout d’un segment fluoré de longueur modulable (F4H5- et F2H9-maltoside). Nous avons inclus également le F8TAC, tensioactif fluoré utilisé depuis une vingtaine d’années pour le maintien en solution des PM, et les "tripodes", amphiphiles faciaux dont la géométrie particulière n’avaient jamais été testée. Nous avons ensuite réalisé la caractérisation physico-chimique, en solution, de ces tensioactifs et du DDM en terme de CMC (concentration micellaire critique), nombre d’agrégation, taille (par diffusion de la lumière dynamique, DLS), facteur de forme (par diffusion des rayons X aux petits angles, SAXS) et facteur de structure (par mesure du second coefficient du viriel, indicateur du potentiel des tensioactifs à initier la cristallisation)afin de déterminer les caractéristiques importantes au maintien en solution et à la cristallisation des PM. Le PCC-malt présentant le même comportement que le DDM,nous l’avons sélectionné pour réaliser une étude en présence de la protéine.Après avoir mis au point une méthode de dosage des tensioactifs par HPTLC (HighPerformance Thin Layer Chromatography) et identifier les lipides présents dans les de Rhodobacter blasticus, nous avons pu quantifier les quantités de lipides et de tensioactifs associés à la protéine en présence de DDM et de PCC-malt.Enfin, dans une dernière partie, nous avons réalisé des essais de cristallisation du complexe RC-LH1-pufX en présence des tensioactifs sélectionnés pour faire le lien entre les conditions de cristallisation et l’étude physico-chimique des micelles en solution. / Membrane proteins (MPs) are involved in the regulation of various fundamental cellular functions, such as cell recognition, receptor-mediated signal transduction and selective transportation of metabolites. However despite their huge importance, researches in MPs are relatively limited. For example MPs represent approximately 30% of the human proteome and less than 1% of current Protein Data Bank entries. Indeed, the presence of hydrophobic domains in MPs makes them not soluble in water. Therefore surfactants are used to extract MPs from their native environment and substitute for lipids around the transmembrane domain of the protein, forming water-soluble complexes. However MPs are often unstable in surfactant solution because of the intrusion of the alkyl chain of the surfactant into the transmembrane domain and/or the dissociation of stabilizing lipids, cofactors or subunits. Our project aims to study, through a multidisciplinary approach, the influence of surfactants for MP crystallization. Since dodecylmaltoside (DDM) is the most common gentle detergent used for MPs crystallization, we synthesized three new structurally DDM-derivative surfactants whose designs were expected to limit MPs inactivation. The objective was to increase the rigidity and the lipophobic behavior of the hydrophobic moiety by adding a bicyclohexyl group (PCC-maltoside) or using different lengths of fluorinated segments (F4H5- and F2H9-maltoside). Comparison of these surfactants with DDM occurs on:Physico-chemical properties: Surfactants are characterized by their CMC, molar mass (SEC-MALS, SAXS), hydrodynamic size (DLS), form factor (SAXS) and structure factor (A2, indicator of surfactant potential to lead to crystallization) in order to determine their best characteristics for MPs crystallization. Biochemical properties: We chose the RC-LH1-Puf X complex from Rhodobacter blasticus as model protein because of its biological interest. Besides this membrane protein has already been crystallized in DDM giving a low diffraction resolution (8Å). A better understanding of mechanisms involved in crystallization is a prerequisite for the development of rational approaches to increase crystals quality. Therefor protein complexes are characterized by quantifying lipids and surfactants bound to the transmembrane domain. Surfactant and lipid assays are performed by High Performance Thin Layer Chromatography (HPTLC). Crystallization trials: we show the link between crystallization and surfactants physico-chemical properties

Détergents/tensioactifs

Protéines membranaires

Cristallisation

Complexe RC-LH1-pufX

Second coefficient du viriel

Surfactants

Membrane protein

Crystallization

RC-LH1-Puf X complex

SAXS (Small Angle X-ray Scattering

Second viral coefficients

548

Entwicklung einer Multimethode zur Probenaufarbeitung und Bestimmung von gas- und flüssigkeitschromatographisch erfassbaren Pestiziden in Hühnereiern

Hildmann, Fanny

05 September 2016

Die Rückstandsanalytik tierischer Lebensmittel ist eine anspruchsvolle Aufgabe aufgrund des hohen Lipidanteils der Proben sowie des sich stetig vergrößernden Wirkstoffspektrums. Heutzutage werden für die Probenaufarbeitung die DFG S 19 Methode, mit der vorrangig unpolare Analyten nachgewiesen werden und zunehmend die QuEChERS Methode eingesetzt, die insbesondere auf die Erfassung polarer Pestizide abzielt. In dieser Arbeit wurde eine moderne Multirückstandsmethode für Hühnereier entwickelt, um sowohl gas- als auch flüssigkeitschromatographisch (GC, LC) erfassbare Wirkstoffe zu analysieren. Dazu gehören unpolare PCBs, Pyrethroide und Organochlorpestizide, aber auch polarere Organophosphate, Triazole und Carbamate. Das Verfahren basiert auf der Extraktion mittels Matrix Solid Phase Dispersion, der Reinigung auf Grundlage einer modifizierten Gelpermeationschromatographie (GPC) und zwei verschiedenen Festphasenextraktionen (SPEs) für GC- und LC-erfassbare Pestizide sowie der Quantifizierung mittels GC- und LC-MS/MS. Dünnschichtchromatographisch wurde die effektive Entfernung hochmolekularer Lipide durch die modifizierte GPC und niedrigmolekularer Fette durch die SPEs belegt. Laut der für Ei durchgeführten Validierung erfüllten 164 der 172 untersuchten Pestizide und alle sechs PCBs die Leistungskriterien für die amtliche Rückstandskontrolle - zumeist am niedrigsten validierten Level (5 µg/kg bzw. 0,5 µg/kg). Ausnahmen bildeten sehr polare LC-Pestizide (z.B. Aminopyralid, Clopyralid, MCPA, Quinmerac) und pH-Wert-abhängige GC-Analyten (Nicotin, Tolylfluanid, Dichlofluanid), die auch mit den etablierten Verfahren schwierig zu analysieren sind. Weiterhin verdeutlichte die erfolgreiche Untersuchung von verschiedenen Ringversuchsmaterialien, dass die ursprünglich für Eier entwickelte Methode auch für mageres Geflügelfleisch und Sahne genutzt werden kann. Gegenüber den etablierten Verfahren wies die neue Methode deutliche Vorzüge auf. So belegte die Dünnschichtchromatographie, dass mit der neuen Methode Cholesterin, aber auch freie Fettsäuren besser abgetrennt werden als mit den etablierten Verfahren. Die neue Methode verbrauchte im Vergleich zur DFG S 19 Methode 46 % weniger Lösungsmittel und ermöglichte eine Verdopplung des Probendurchsatzes innerhalb von 8 h. Zudem eignete sich das entwickelte Verfahren laut den Validierungsdaten für GC-Analyten deutlich besser als die QuEChERS Methode und etwas besser als die DFG S 19 Methode (v.a. für Pyrethroide). Hinsichtlich der LC-Analyten unterschieden sich die neue und die QuEChERS Methode nur bei wenigen Analyten. Mit dem neuen Verfahren konnten folglich im Gegensatz zu den etablierten Methoden sowohl unpolare GC- als auch polare LC-Analyten sicher erfasst werden.

Multirückstandsanalyse

Lebensmittel tierischen Ursprungs

GC-MS/MS

LC-MS/MS

Dünnschichtchromatographie

Zirkoniumdioxid-beschichtetes Kieselgel

multi-residue analysis method

food of animal origin

GC-MS/MS

LC-MS/MS

thin layer chromatography

Zirconium-oxide-coated SPE phase

ddc:540

rvk:VN 8107

Cellules photovoltaïques organiques souples à grande surface

Bailly, Loïc

03 September 2010

Afin d’obtenir une approche où l’aspect industriel du projet est soutenu par les connaissances académiques et les capacités analytiques du monde de la recherche, ce travail portant sur les cellules photovoltaïques organiques souples grande surface commence par décrire l’énergie photovoltaïque dans son ensemble. Les tenants et aboutissants de son développement sont détaillés, ainsi que ses filières technologiques. Les semi-conducteurs organiques, les mécanismes physiques mis en jeu dans la production d’électricité d’origine photovoltaïque et les grandeurs électriques associées aux cellules photovoltaïques organiques ainsi que les différentes structures de celles-ci sont ensuite présentés. Les dispositifs réalisés dans le cadre de ce travail sur les cellules photovoltaïques organiques sont présentés. Les différentes techniques de dépôt de couches minces, aussi bien celles permettant la production en masse que celles permettant la production à plus petite échelle sont présentées. Cette présentation s’accompagne d’une recherche qui se veut exhaustive des publications relatant l’utilisation des ces techniques d’impression afin de créer des dispositifs photovoltaïques organiques. Une comparaison de ces différentes techniques est menée afin de déterminer les modes de production pertinents. Une étude bibliographique complète menée sur les cellules « grande surface » est présentée. Les cellules et modules réalisés grâce au procédé pilote d’enduction par héliogravure sont ensuite présentés. Le travail réalisé sur un autre procédé, le « doctor blade », est ensuite exposé. Enfin, la problématique du séchage et du recuit des couches minces déposées en continu est posée, et le traitement micro-onde proposé comme solution. / To obtain an approach where the industrial aspect of the project is supported by academic knowledge and the analytical capacities of research, this work concerning the large area flexible organic solar cells begins by describing the photovoltaic energy in general. The ins and outs of its development are detailed, as well as the different technologies involved. The organic semiconductors, the physical mechanisms involved in the photovoltaic electricity production and the physical values attached to the organic solar cells as well as the various structures of these cells are then presented. Devices realized within the framework of this work are then presented. The various techniques of depositing thin layers allowing the mass production as well as those allowing the smaller-scale production are presented. This presentation comes along with an exhaustive research of the publications telling the use of these techniques of printing to create organic photovoltaic devices. A comparison of those various techniques is led to determine the relevant means of production. A complete bibliographical study led on large area organic solar cells is presented. Cells and modules realized thanks to the experimental process of heliogravure coating are then presented. The work realized with another process called doctor blade is then exposed. Finally, the problem of the drying and annealing of the thin layers deposited continuously is raised, and the microwave treatment proposed as a possible solution.

Micro-onde

Recuit

Cellule photovoltaïque organique

Couche mince

Grande surface

Polymère

Roll to roll

Impression

Électronique organique

Microwave

Annealing

Organic solar cell

Photovoltaic

Large area

Thin layer

Polymer

Roll to roll

Printing

Electronic organics