Global ETD Search

291	Self-assembly of PS-PVP block copolymers and their complexes at the air/water interface Perepichka, Iryna I. 01 1900 (has links) Une compréhension approfondie et un meilleur contrôle de l'auto-assemblage des copolymères diblocs (séquencés) et de leurs complexes à l'interface air/eau permettent la formation contrôlée de nanostructures dont les propriétés sont connues comme alternative à la nanolithographie. Dans cette thèse, des monocouches obtenues par les techniques de Langmuir et de Langmuir-Blodgett (LB) avec le copolymère dibloc polystyrène-poly(4-vinyl pyridine) (PS-PVP), seul ou complexé avec de petites molécules par liaison hydrogène [en particulier, le 3-n-pentadécylphénol (PDP)], ont été étudiées. Une partie importante de notre recherche a été consacrée à l'étude d'une monocouche assemblée atypique baptisée réseau de nanostries. Des monocouches LB composées de nanostries ont déjà été rapportées dans la littérature mais elles coexistent souvent avec d'autres morphologies, ce qui les rend inutilisables pour des applications potentielles. Nous avons déterminé les paramètres moléculaires et les conditions expérimentales qui contrôlent cette morphologie, la rendant très reproductible. Nous avons aussi proposé un mécanisme original pour la formation de cette morphologie. De plus, nous avons montré que l'utilisation de solvants à haut point d’ébullition, non couramment utilisés pour la préparation des films Langmuir, peut améliorer l'ordre des nanostries. En étudiant une large gamme de PS-PVP avec des rapports PS/PVP et des masses molaires différents, avec ou sans la présence de PDP, nous avons établi la dépendance des types principaux de morphologie (planaire, stries, nodules) en fonction de la composition et de la concentration des solutions. Ces observations ont mené à une discussion sur les mécanismes de formation des morphologies, incluant la cinétique, l’assemblage moléculaire et l’effet du démouillage. Nous avons aussi démontré pour la première fois que le plateau dans l'isotherme des PS-PVP/PDP avec morphologie de type nodules est relié à une transition ordre-ordre des nodules (héxagonal-tétragonal) qui se produit simultanément avec la réorientation du PDP, les deux aspects étant clairement observés par AFM. Ces études ouvrent aussi la voie à l'utilisation de films PS-PVP/PDP ultraminces comme masque. La capacité de produire des films nanostructurés bien contrôlés sur différents substrats a été démontrée et la stabilité des films a été vérifiée. Le retrait de la petite molécule des nanostructures a fait apparaître une structure interne à explorer lors d’études futures. / Deeper understanding and control of the self-assembly of diblock copolymers and their complexes at the air/water interface allow the formation of nanopatterns with known properties to provide a competitive substitute to nanolithography. In this dissertation, Langmuir and Langmuir-Blodgett (LB) monolayers obtained from polystyrene-poly(4-vinyl pyridine) diblock copolymers (PS-PVP), alone and hydrogen-bonded by various small molecules [particularly, 3-n-pentadecylphenol (PDP)], have been extensively investigated. A major part of the research was devoted to the study of an uncommon monolayer pattern that we term the nanostrand network. LB monolayers consisting of nanostrands have sometimes been reported in the literature, but are often coexistent with other morphologies, which is not useful for potential applications. We have determined the molecular parameters and experimental conditions that control this morphology, making it highly reproducible, and have proposed a novel mechanism for the formation of this morphology. In addition, we have shown that the use of high-boiling spreading solvents, not usually used for Langmuir film preparation, can improve the nanostrand order. By investigation of a wide range of PS-PVP’s with various block ratios and molecular weights, with and without PDP present, we have established the composition dependence of the main LB morphology types (planar, nanostrand, nanodot) and the influence of each type on spreading solution concentration. This led to an extensive discussion concerning the mechanisms of morphology formation, including kinetic, molecular association, and dewetting contributions. We have also shown that the isotherm plateau transition for nanodot-forming PS-PVP/PDP is related to an order–order transition that occurs simultaneously with PDP reorientation, both aspects being clearly observed by AFM. These studies also form the basis for the use of ultrathin PS-PVP/PDP films as templates. The ability to produce well-controlled nanopatterned films on various substrates has been demonstrated, and film stability has been verified. Removal of small molecules from the nanostructures has revealed the appearance of new substructure of interest for further study. auto-assemblage films ultraminces nanostructurés copolymères bloc réseau de nanostries interface air/eau approche supramoléculaire polystyrène-poly(4-vinyl pyridine) self-assembly nanostructured ultrathin films block copolymers nanostrand network air/water interface supramolecular approach polystyrene-poly(4-vinyl pyridine)
292	Monocouches peptidiques auto-assemblées et applications dans le domaine des biocapteurs de résonance de plasmon de surfaces Bolduc, Olivier R. 08 1900 (has links) Ces travaux visent à étendre les applications de la résonance de plasmons de surface (SPR) L’objectif est d’offrir des outils diagnostics plus rapides, efficaces et simple d’utilisation pour diagnostiquer ou effectuer le suivi de conditions cliniques. Pour se faire, un nouveau type d’instrumentation SPR basé sur l’utilisation d’un prisme d’inversion (dove) a permis d’atteindre une limite de détection (LOD) de 10-6 unité d’indice de réfraction (RIU), une valeur comparable aux instruments commerciaux complexes tout en demeurant peu dispendieux, robuste et simple d’utilisation. Les travaux présentés dans cet ouvrage visent, dans un second temps, à réduire les interactions nonspécifiques (NSB) entre la surface des biocapteurs SPR et les composants de la matrice biologique complexe telles que: l’urine, le lysat cellulaire, le sérum et le sang. Ces dernières induisent des réponses empêchant l’utilisation de biocapteurs SPR en milieux complexes. Les acides aminés (AA) offrent une grande variété de propriétés physico-chimiques permettant la mise au point de monocouches auto-assemblées (SAM) aux propriétés diverses. Initialement, 19 des 20 acides aminés naturels ont été attachés à l’acide 3-mercaptopropionique (3-MPA) formant des SAMs peptidomimétiques. La quantité d’interactions nonspécifiques engendrées par ces différentes surfaces a été mesurée en exposant ces surfaces au sérum sanguin bovin complet variant de 400 ng/cm² jusqu’à 800 ng/cm². La détection à l’aide de ces surfaces de la β-lactamase (une enzyme responsable de la résistance aux antibiotiques au niveau μM) a démontré la possibilité d’employer ces surfaces pour bâtir des biocapteurs SPR. Des peptides de longueur allant de 2 à 5 résidus attachés à 3-MPA ont été synthétisés sur support solide. Cette étude a démontré que l’augmentation de la longueur des peptides formés d’AA résistants aux NBS accroit leur résistance jusqu’à 5 résidus. Le composé le plus performant de ce type (3-MPA-(Ser)5-OH) a permis d’atteindre 180 ng/cm². Cette valeur est similaire à celle des meilleures surfaces disponibles commercialement, notamment les surfaces de polyethylène glycol (PEG) à 100 ng/cm². Des surfaces de 3-MPA-(Ser)5-OH ont permis l’étalonnage de la β-lactamase et sa quantification directe dans un lysat cellulaire. La LOD pour ces biocapteurs est de 10 nM. Une troisième génération de surfaces peptidiques binaires a permis la réduction de la NSB jusqu’à un niveau de 23±10 ng/cm² une valeur comparable aux meilleures surfaces disponibles. Ces surfaces ont permis l’étalonnage d’un indicateur potentiel du cancer la metalloprotéinase-3 de matrice (MMP-3). Les surfaces formées de peptides binaires (3-MPA-H3D2-OH) ont permis la quantification directe de la MMP-3 dans le sérum sanguin complet. Une quatrième génération de surfaces peptidiques a permis de réduire davantage le niveau de NSB jusqu’à une valeur de 12 ± 11 ng/cm². Ces surfaces ont été modifiées en y attachant une terminaison de type acide nitriloacétique (NTA) afin d’y attacher des biomolécules marquées par six résidus histidines terminaux. Ces surfaces ont permis le développement d’une méthode rapide de balayage des ligands ciblant le « cluster of differenciation-36 » (CD36). L’étude d’électroformation des monocouches de peptide a permis de déterminer les conditions de formation optimales d’une couche de 3-MPA-HHHDD-OH permettant ainsi la formation de monocouches résistantes au NSB en moins de 6 minutes en appliquant un potentiel de formation de 200mV vs Ag/AgCl. / The work presented in this thesis aims to extend the use of surface plasmon resonance (SPR) biosensors to generate more rapid, cost efficient and simple to use diagnostic tools to diagnose or follow serious medical conditions. This task required the development of a new SPR instrument that relies on an inversion prism (dove) and is able to reach a limit of detection (LOD) in the 10-6 refractive index unit (RIU) range, a value comparable to more complex commercial instruments. The developed SPR instrumentation is inexpensive, robust and very simple to manipulate. The other work presented in this thesis is based on reducing nonspecific interactions between the surface of SPR sensors and components in biological matrices such as urine, cell lysate, serum and whole blood. These nonspecific interactions induce SPR responses that have typically prohibited the use of SPR in these complex matrices. Amino acidshavebeen investigated for reduction of nonspecific binding (NSB) because they offer a wide variety of physico-chemical properties capable of tuning the physical properties of surfaces in a self-assembled monolayer (SAM) format. Initially, the attachment of one of 19 physiological 20 amino acids to 3-mercaptopropionic acid (3-MPA) allowed the formation of amino acid SAMs. Exposure of these surfaces to bovine serum revealed nonspecific interactions ranging from 400 ng/cm² to 800 ng/cm². Detection assays for β-lactamase (an enzyme produced by drug resistant bacteria at a micromolar level) demonstrated that the amino acid SAM is suitable for SPR biosensing. By using a solid phase approach, peptides were of 2 to 5 residues were synthesized to investigate NSB properties. The result of this study showed that adding amino acids decreased nonspecific interactions up to a peptide length of 5 amino acids. The best performing peptide, 3-MPA-(Serine)5-OH, resulted in low nonspecific adsorption of bovine serum proteins to a level of 180 ng/cm². This value is similar to nonspecific adsorption obtained under identical conditions for one of the best reported surfaces: polyethylene glycol-based SAMs at 100 ng/cm². The 3-MPA-(Serine)5-OH based SAM was used to calibrate β-lactamase, leading to its direct quantification in crude cell lysate. The detection limit for this analyte was 10 nM. A third generation of peptide, which is binary patterned, decreased significantly nonspecific adsorption to a level as low as 23 ± 10 ng/cm², a value comparable to the best surfaces known. This surface SAM allowed the calibration of matrix metalloproteinase-3 (MMP-3), a potential indicator of cancer. Direct quantification assays of MMP-3 in whole blood serum were achieved with the binary patterned peptides developed. The LOD for MMP-3 was 0.2nM over a 50 nM linear domain. A fourth generation of peptide based surfaces was developed, reducing the level of nonspecific adsorption of blood serum proteins to 12 ± 11 ng/cm2. These new surfaces were modified to attach His-tagged biomolecules enabling rapid screening of small ligands targeting the Cluster of differentiation-36 (CD36). Finally, the electroformation of peptide monolayers was studied to determine the optimal conditions needed to form an ultralow biofouling surface. It was demonstrated that the difference in potential applied during the formation of a peptide based layer influences the kinetics of formation and the arrangement of this layer. An optimal layer of 3-MPA-HHHDD-OH could be obtained in less than 6 min by applying a potential of 200mV vs Ag/AgCl to the SPR sensor. Interactions nonspécifiques Nonspecific interactions Résonance de plasmons de surface Surface plasmon resonance Biocapteurs Biosensors Capteurs chimiques Chemical sensors Monocouches auto-assemblées Self-assembled monolayers Peptides Pharmaceutique Pharmaceutical Électroformation Electroformation Outils diagnostiques Diagnostic tools Couches chimiques Chemical layers Adsorption
293	Structure and Dynamics of Interfacial Molecular Membranes Bhattacharya, Rupak January 2013 (has links) (PDF) This thesis describes the study on structure and dynamics of various kinds of molecular membranes in general. We have studied the morphological transition of colloidal as well as biologically relevant membranes and qualitatively argued regarding the interplay between structure and dynamics. Systematic measurements have been performed to address the issue of ambiguous behavior of molecules under stress when its confined at the interface. The structural and dynamical effect on interfacial membranes have been studied for soft colloidal free standing langmuir monolayer as well as for the quasi two dimensional lipid membranes on solid supports. For organic nanoparticle monolayer we have observed a correlation between the nanoparticle raft dynamics and the underlying morphological transition. In this study we have also found a non-monotonic behavior of dynamical heterogeneity with time which is unusual for a colloidal system in common and beyond the prediction of Mode Coupling Theory. In the case of lipid membrane, we have given an experimental evidence of lipid molecular rearrangement process at molecular level when its perturbed by foreign entities. Using sophisticated X-Ray scattering techniques, we were able to capture the subtle changes happening in the assembly of lipid molecules in a planar bilayer structure when it interacts with molecules having biological relevance. In the next level we have used lipid membranes as an active plat-form to study the physical interaction with several kinds of nanoparticles and explored the mechanism of active participation of lipid molecules in self assembly process. Besides with the help of Fluorescence Correlation Spectroscopy, we have also studied the effect of nanoparticles assemblies on the dynamics of lipid molecules itself. In Chapter 1, we have provided the background along with a brief review of the existing literature for understanding the results represented in the subsequent chapters. This includes discussion on the various physical properties of our systems of interest, including dynamic behavior of colloidal particles in different concentration regime and a detailed theoretical understanding regarding the glass transition and jamming transition for a highly dense colloidal packing. In this section we have also discussed the advantages of interfacial microrheology technique over conventional bulk rheology in terms of efficiency and sensitivity. Here we have also pointed out the formulation of the multi-particle tracking method for achieving different parameters which are correlated in space and time for a given system. Followed by that the Dynamical Susceptibility and the anomaly in Van Hove correlation function, for a heterogeneous system has been argued thoroughly. Towards the end we have discussed about the general features of another type of two dimensional membrane i.e. the lipid membrane at interface. Using raft theory we have also tried to give a plausible explanation of the dynamical heterogeneity of the real cell membrane which is mimicked by the model supported lipid membrane. Here we have argued about the structural six fold symmetry of a compact monolayer. Finally in the last part we have summarized the theoretical aspects of the lipid molecule mediated self assembly process and the how the lipid diffusion plays a vital role in it. Chapter 2 deals with the aspect of measuring the morphological transition and its effect on the dynamics for a two dimensional membrane at air/water interface. It starts with the discussion on the synthesis method for various types of organic molecule grafted nanoparticles like Cadmium Selenide(CdSe Quantum Dots) and Gold Nanoparticle(Au NPs) of different size and properties and followed by a preparation method of 2D film at air/water interface and on solid substrate using Langmuir-Blodgett method. In this chapter we have discussed about the basic principles of several experimental tools like Brewster Angle Microscopy(BAM), Laser Scanning Confocal Microscopy(LSCM), Atomic Force Microscopy(AFM), Thermogravimetric Analysis(TGA), X Ray Reflectivity(XRR), Grazing Incidence Diffraction(GID), Fluorescence Correlation Spectroscopy(FCS) etc. Chapter 3 explains the main aspects of the microscopic dynamics in dense amorphous nanoparticle monolayer at the air-water interface. In this study we have found a transition in mechanical properties, tracked down through the systematic variation of isothermal compressibility(�) with increasing two dimensional packing fraction of nanoparticle rafts up to the area fraction of Φ∼0.82 using Laser Scanning Confocal Microscope. Here we have used multi particle tracking method for a close packed gold monolayer with CdSe tracer to estimate different dynamical properties like Mean Square Displacement(MSD), Dynamical Heterogeneity etc. These calculations indeed point out the non-monotonic variation of the amplitude in the four-point dynamic susceptibility (χ4), a signature of spatio-temporal extension of correlated domains. Along with that we have also observed the anomaly in trend for the inherent relaxation time τ∗with increasing area fraction(Φ). Interestingly the variation in χ4exactly follows the systematic we found for the isothermal compressibility( �) with increasing Φ and that indicates the connection between the observed macroscopic transitions in mechanical properties and the microscopic dynamical phase transitions. Finally we have given a possible explanation of these kind of events in terms of the interaction between this sterically stabilized nanoparticle domains with the help of interpenetration of the capping long chain polymers of the neighboring nanoparticle. Chapter 4 opens up the possibilities of probing the hidden features of biomembranes at molecular scale with the help of very precise techniques based on synchrotron X ray diffraction. Here we have studied the rearrangement of the lipid molecules of an artificial membrane on a solid support as an effect of ad-sorption of organic branched molecules. In this work we have used non toxic PETIM dendrimers of two different generations, i.e. G3and G4which differs a lot in terms of size, no of termination groups, molecular weights and protonation states. Our initial measurements shows quantitatively the in-plane and out of plane symmetry breaking of the lipid bilayer as a result of the interaction with these two types of molecules. The molecular adsorption effect was quantified in terms of thickness reduction and the change in the scattering length density(SLD) or the electron density of the top layer in out of plane reflectivity model. Interestingly both the dendrimers showed different behavior and the interaction reflected in terms of membrane penetration was found stronger for higher generation. On the other hand the GID measurement indicates an enhancement of the in plane unit cell dimension and associated parameters of the arrangement of lipid molecules as a result of interaction with dendrimers. The combined XRR and GID measurements indicate a local fluidization of lipid packing as an outcome of charged branched molecules adsorption on the membrane surface. Chapter 5 is summarizes the lipid mediated self assembly process of nanoparticles on a bilayer and how the interaction changes the local properties of the bilayer represented by the molecular diffusivity. In this study we have used particles of wide variety of features in terms of size, charge, functionality, polarity etc and found a quite dramatic effect in the nanoparticle adsorption event on a solid supported Lαphased DMPC lipid bilayer. We have also seen that de-pending on the concentration and amount of surface charge the nanoparticles form two dimensional regular self assembled patterns on the bilayer surface. In FCS measurement, we have also found a second group of dynamics ( distribution of diffusivity) along with the normal bilayer diffusion which has been identified as the diffusion of the lipid molecules where nanoparticles are adsorbed. The inherent increment in diffusivity supports the argument of local fluidization in lipid membrane in presence of charged nanoparticle as we have observed in our XRR and GID data described in chapter 4. Chapter 6 contains the summary and the future perspective of the work presented here. Molecular Membranes Microrheology Lipid Membranes Interfacial Molecular Membranes Molecular Membranes - Dynamics Molecular Membranes - Structure Dynamical Heterogeneity Lipid Dynamics Nanoparticles - Self Assembly Lipid Molecules - Self Assembly Jamming Transititon Soft Colloids Nanoconfined Soft Matter Biophysics
294	Patterned polymer brushes Chen, Tao, Amin, Ihsan, Jordan, Rainer January 2012 (has links) This critical review summarizes recent developments in the fabrication of patterned polymer brushes. As top-down lithography reaches the length scale of a single macromolecule, the combination with the bottom-up synthesis of polymer brushes by surface-initiated polymerization becomes one main avenue to design new materials for nanotechnology. Recent developments in surface-initiated polymerizations are highlighted along with diverse strategies to create patterned polymer brushes on all length scales based on irradiation (photo- and interference lithography, electron-beam lithography), mechanical contact (scanning probe lithography, soft lithography, nanoimprinting lithography) and on surface forces (capillary force lithography, colloidal lithography, Langmuir–Blodgett lithography) (116 references). / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/540 ddc:540
295	Elektroneneinfangsspektroskopie: Eine Methode zur Untersuchung magnetischer Schichten und Oberflächen Manske, Jörg 18 May 2001 (has links) Die Streuung niederenergetischer Ionen zur chemischen Analyse und Strukturbestimmung von Festkörperoberflächen gehört mittlerweile zu den Standardverfahren der Oberflächenphysik. Weniger bekannt ist sicherlich, daß die Ionenstreuung auch zur Untersuchung magnetischer Oberflächen eingesetzt werden kann. Diese Methode beruht auf dem Einfang spinpolarisierter Elektronen von einer Festkörperoberfläche und trägt daher den Namen Elektroneneinfangsspektroskopie (engl.: Electron Capture Spectroscopy, ECS). Das verwendete Verfahren zum (indirekten) Nachweis einer Spinpolarisation der Oberflächenelektronen basiert auf dem Effekt, daß ein geringer Teil der Ionen nach der Wechselwirkung mit der Oberfläche ein Elektron in einen angeregten Projektilzustand eingefangen hat. Die nachfolgende Abregung kann durch die Emission polarisierter Strahlung erfolgen. Der Grad der Zirkularpolarisation hängt unter anderem vom Magnetisierungszustand der Oberfläche ab. In dieser Arbeit wurden Experimente an drei verschiedenen Systemen durchgeführt. Als Projektile dienten dabei einfach geladene Heliumionen mit Primärenergien zwischen 2 und 14 keV, die unter verschiedenen Einfallswinkeln an der Probe gestreut wurden. Die Lichtemission eines Triplett-Übergangs im sichtbaren Spektralbereich (Wellenlänge: 587.6 nm) wurde im Experiment analysiert. Zunächst wurden ECS-Messungen an einer unmagnetischen Kupfer(111)-Oberfläche durchgeführt. Dabei konnte gezeigt werden, daß die Emission polarisierter Strahlung von verschiedenen experimentellen Parametern abhängt. Dazu gehört neben der Primärenergie der Projektilionen auch deren Einfallswinkel. Ein statisches Magnetfeld, das mit einem Weicheisenjoch erzeugt wird, hat keinen Einfluß auf die Lichtpolarisation bei einer unmagnetischen Probe. Die ECS-Messungen an einer amorphen ferromagnetischen Oberfläche ergaben, daß mit dieser Methode prinzipiell auch Ummagnetisierungskurven ferromagnetischer Festkörperoberflächen bestimmt werden können. Die im Vergleich zu den ebenfalls untersuchten MOKE-Hysteresen charakteristische, leicht abgerundetete Form der Kurven ist ein experimenteller Nachweis dafür, daß die Elektroneneinfangsspektroskopie eine extrem oberflächensensitive Meßmethode ist. Diese Oberflächenempfindlichkeit ist eine unmittelbare Konsequenz des Formierungsabstands des angeregten Heliumzustands. Die Messungen am System Co/Cu(111) konnten zeigen, daß die ECS-Methode prinzipiell auch bei dünnen ferromagnetischen Schichten anwendbar ist, die auf ein unmagnetisches Substratmaterial gedampft wurden. Hier ergaben sich u.a. interessante Abhängigkeiten des magnetischen Signals von der Dicke der aufgedampften Schicht, die sich erstaunlich gut mit den mikromorphologischen Eigenschaften des Kobaltfilms korrelieren ließen. Ferner wurde gezeigt, daß mit der ECS-Methode auch Hysteresen dünner ferromagnetischer Schichten gemessen werden können. Elektroneneinfangsspektroskopie ECS Kobalt Kupfer Magnetismus Lichtemission Polarisation Stokes-Parameter Ionenstreuung 29 - Physik, Astronomie 34.50. Fa 68.49.Sf - Ion scattering from surfaces 75.70.Rf - Surface magnetism ddc:530
296	Monocouches auto‐assemblées et nanostructures de métaux nobles : préparation et application au photovoltaïque / Self‐assembled monolayer and noble metal nanostructures : preparation and application to organic photovoltaics Dufil, Yannick 06 November 2018 (has links) Au cours de ce travail, dans une première approche descendante, nous avons étudié la réalisation de cellules solaires multicouches évaporées à base de matériaux organiques : le pentacène et le PTCDI-C5. Nous nous sommes servis de cela pour bâtir des cellules simple jonction bicouches et les caractériser. Ces cellules ont servi de modèle de référence à notre étude et démontrent des capacités en accord avec la littérature. Nous avons ensuite produit et caractérisé des cellules multijonctions en bicouches. Une rapide étude sur le comportement d’une couche d’argent d’épaisseur nanométrique a servi à déposer la couche de recombinaison de ces cellules. Nous nous sommes ensuite attelés à la réalisation de monocouches auto-assemblées sur silicium dans le but de développer des couches actives donneur-accepteur et de pouvoir les empiler par l’approche ascendante. Après avoir étudié les groupements d’accroche silanes et acides phosphoniques, nous avons investigué la réalisation de SAM de (3-Triméthoxysilylpropyl) diéthylènetriamine (DETAS) sur silicium en tant que couche d’accroche pour les molécules actives. Nous avons mis en évidence la présence de liaisons hydrogènes aidant à l’organisation de la SAM grâce à des analyses ATR-FTIR. Nous nous sommes servis de cette SAM comme couche d’accroche pour la greffe d’une molécule photo-active le pérylène tétracarboxylique dianhydride (PTCDA). Les techniques de caractérisation par AFM, ellipsométrie et spectroscopie Raman nous ont servi à caractériser notre surface après la greffe de PTCDA / During this study, in a first top-down approach, we investigated evaporated multilayer organic solar cells built from pentacene and PTCDI-C5. We studied spectral response from these materials as well as their vacuum deposition characteristics. We used that knowledge to build simple junction and bi-layer solar cells. Those cells were the reference that allowed us to build and characterised multijonctions bi-layer solar cells with a nanostructured silver layer as recombination layer. A simple study of that silver layer was also conducted. We then switched to self-assembled monolayers on silicon in order to build donor-acceptor active layers that could be stacked, in a bottom-up approach. First, we compared silane and phosphonic acid grafting groups with an 18 carbon long alkane chain. Then we studied (3- trimethoxysilylpropyl) diethylentrimaine (DETAS) on silicon with extra care on relative humidity as a grafting parameter. We also investigated DETAS SAM to highlight hydrogen bonding within the monolayer using ATR-FTIR. DETAS SAM were then used as an anchor molecule for a photoactive molecule perylene tetracarboxylicdianhydrid (PTCDA). Characterisation technics used were AFM, ellipsometry, and Raman spectroscopy Pentacène Ptcdi-C5 Photovoltaïque organique (OPV) Nanostructure Argent Monocouche auto-Assemblée (SAM) Raman Atr-Ftir Humidité relative Pentacene Ptcdi-C Organic Photovoltaics (OPV) Nanostructures Silver Self-Assembled monolayers (SAM) Raman Atr-Ftir Relative humidity
297	Interfacial structure of phospholipids probed by high-resolution, high-repetition-rate broadband vibrational sum-frequency generation spectroscopy Yesudas, Freeda 20 December 2022 (has links) Diese Arbeit konzentriert sich auf die Anwendbarkeit eines hochmodernen 100 kHz BB-VSFG-Spektrometers, das kürzlich im SALSA Photonics Lab entwickelt wurde, für die Analyse der Grenzflächenstruktur von Alkylketten, des sie umgebenden Wassers und der Phosphatkopfgruppen von Phospholipidschichten. Zunächst wurden Phospholipid-Doppelschichten, die mehrere Komponenten enthalten, bei Laserwiederholraten von 5, 10, 50 und 100 kHz mit konstanter Pulsenergie untersucht. Die BB-VSFG-Spektren legen nahe, dass die Phospholipid-Doppelschichten während der Messungen ohne wärmeinduzierte Veränderungen stabil waren. Darüber hinaus bot die Erhöhung der Laserwiederholungsrate eine praktikable Möglichkeit, Spektren in kurzen Datenerfassungszeiten zu erhalten, ohne dass das Signal-Rausch-Verhältnis beeinträchtigt wurde. Die extrem kurze Aufnahmezeit von 500 ms, die hohe spektrale Auflösung und alle verwendeten Pulsparameter sorgen dafür, dass bei Messungen unter Umgebungsbedingungen keine thermisch bedingten Photoschäden auftreten. Es wurde eine systematische Untersuchung von ein- und zweikomponentigen Phospholipid-Monoschichten in Abhängigkeit von der Oberflächenspannung und dem Mischungsverhältnis für verschiedene Kombinationen an Polarisationen durchgeführt und die Abhängigkeit der Schwingungsspektren untersucht. Die Struktur von Alkylketten und umgebendem Wasser wurde anhand derselben Modellsystemen analysiert. Bislang nicht beobachtete Schwingungsbanden und Spektren von Monolagen mit geringer Oberflächenbedeckung wurden mit einem bisher nicht erreichten Signal-Rausch-Verhältnis gemessen und beschrieben. Die Struktur von Phospholipid-Monolagen mit identischen Kopfgruppen und unterschiedlichen Ketten wurde analysiert und verglichen. Die Spektren bestätigten die Anwesenheit von Wassermolekülen in der Nähe der Phosphat- und Cholingruppen der Phospholipid-Monolagen. / This thesis focuses on the applicability of a state-of-the-art 100 kHz BB-VSFG spectrometer recently developed at the SALSA Photonics Lab and on the analysis of the interfacial structure of alkyl chains, surrounding water, and the phosphate head groups of phospholipid layers. First, multi-component phospholipid bilayers were studied at laser repetition rates of 5, 10, 50, and 100 kHz at constant pulse energy. The spectra suggest that the phospholipid bilayers were stable during the measurements with no heat-induced distortions. Moreover, an increase in the laser repetition rate provided a feasible route to obtain spectra in short data acquisition times without compromising the signal-to-noise ratio. The extremely short acquisition time of 500 ms, the high spectral resolution, and all applied pulse parameters ensured no thermal induced photodamages occur during the measurements. A systematic study of one- and two-component phospholipid monolayers as a function of surface tension and mixture ratio at different polarization combinations was performed and the dependence of the vibrational spectra was explored. The structure of alkyl chains and surrounding water was analyzed using the same model systems. Vibrational modes that were previously unseen and spectra of monolayers at low surface coverage were reported for the first time with an unprecedented signal-to-noise ratio. The structure of phospholipid monolayers containing identical head groups and different chains was analyzed and compared. The order of the phospholipid molecules as a function of the composition of the monolayers was inferred from the spectral data. The influence of the hydration and/or changes in the orientation of the phosphate group was visible from the spectra as well. Phospholipiden Phospholipid-Monolagen Phospholipid-Doppelschichten 100 kHz VSFG-Spektroskopie high-resolution high-repetition-rate phospholipids interfacial structure bilayers monolayers 100-kHz VSFG spectroscopy 541 Physikalische Chemie VG 9307 VK 8527 WD 5400 ddc:541
298	A Tailor-Made Approach for Thin Films and Monolayer Assemblies of bis(oxamato) and bis(oxamidato) Transition Metal Complexes Abdulmalic , Mohammad A. 18 July 2013 (has links) (PDF) The present work is dealing with the synthesis and characterization of mono- to trinuclear Cu(II)- and Ni(II)-containing bis(oxamato) and bis(oxamidato) complexes, respectively. It will be derived to which extent the spin density distribution of mononuclear complexes, determined by electron paramagnetic resonance studies experimentally and calculated by quantum mechanical calculations, can be regarded as a measure of the magnitude of magnetic superexchange interactions of corresponding trinuclear complexes. The usability of tailor-made trinuclear complexes for their deposition in form of thin film by spin-coating is described as well as the magneto-optical characterization of these thin films. It is shown, that the tailor-made functionalization of mono- to trinuclear bis(oxamidato) complexes with long alkyl chains is suited to allow these complexes to assembly in monolayers on, e.g., HOPG(0001) (highly-oriented pyrolytic graphite), whereas the functionalization of the alkyl chains with S atoms allows the generation of self-assembled monolayers on metallic gold. Furthermore it is shown, that the functionalization of mono- and trinuclear Cu(II)-containing bis(oxamato) complexes with ferrocenediyle fragments allows to modify the magnetic properties by making use of the oxidation process Fe(II)/Fe(III). / Die vorliegende Arbeit befasst sich mit der Darstellung und Charakterisierung ein- bis dreikerniger Cu(II)- bzw. Ni(II)-haltiger bis(oxamato) oder bis(oxamidato) Komplexe. Es wird abgeleitet, inwiefern die aus Elektronenenspinresonanz- Untersuchungen experimentell und die quantenmechanisch berechneten Spindichteverteilungen einkerniger Komplexe ein Maß für die Größe der magnetischen Superaustauschwechselwirkungen korrespondierender dreikerniger Komplexe darstellt. Die Eignung maßgeschneiderter dreikerniger Komplexe zu ihrer Überführung in dünne Filme im nm-Bereich mittels Rotationsbeschichtung auf Si/SiO2-Substraten wird beschrieben sowie die magneto-optische Charakterisierung dieser dünnen Filme. Es wird gezeigt, dass durch gezielte Funktionalisierung mit langkettigen Alkylresten ein- bis dreikernige Cu(II)-haltige bis(oxamidato) Komplexe geeignet sind, auf Substraten wie HOPG(0001) (hochorientiertes pyrolytisches Graphit) zu Monolagen zu assemblieren während die zielgerichtete Funktionalisierung der Alkylketten mit S-Atomen es ermöglicht selbst-assemblierte Monolagen auf metallischem Gold zu generieren. Zusätzlich wird beschrieben, dass durch die Funktionalisierung von ein- und dreikernigen Cu(II)-haltigen bis(oxamato) mit Ferrocendiylresten die magentischen Eigenschaften durch den Oxidationsprozess Fe(II)/Fe(III) gezielt modifiziert werden können. bis(oxamato) Komplexe bis(oxamidato) Komplexe Einkristallröntgenstrukturanalyse Elektronspinresonanz Spindichteverteilung Magnetismus Dichtefunktionaltheorie Rotationsbeschichtung selbst-assemblierte Monolagen dünne Filme Ellipsometrie magneto-optischer Kerr-Effekt bis(oxamato) complexes bis(oxamidato) complexes single crystal X-ray analysis electron paramagnetic resonance spin density distribution magnetism density functional theory spin-coating self-assembly monolayers thin films ellipsometry magneto-optical Kerr effect atomic force microscopy scanning tunneling microscopy transition metal complexes ddc:540 Elektronenspinresonanz Magnetismus Ellipsometrie Rastertunnelmikroskopie Rasterkraftmikroskopie
299	Structural and magnetic properties of ultrathin Fe3O4 films: cation- and lattice-site-selective studies by synchrotron radiation-based techniques Pohlmann, Tobias 19 August 2021 (has links) This work investigates the growth dynamic of the reactive molecular beam epitaxy of Fe3O4 films, and its impact on the cation distribution as well as on the magnetic and structural properties at the surface and the interfaces. In order to study the structure and composition of Fe3O4 films during growth, time-resolved high-energy x-ray diffraction (tr-HEXRD) and time-resolved hard x-ray photoelectron spectroscopy (tr-HAXPES) measurements are used to monitor the deposition process of Fe3O4 ultrathin films on SrTiO3(001), MgO(001) and NiO/MgO(001). For Fe3O4\SrTiO3(001) is found that the film first grows in a disordered island structure, between thicknesses of 1.5nm to 3nm in FeO islands and finally in the inverse spinel structure of Fe3O4, displaying (111) nanofacets on the surface. The films on MgO(001) and NiO/MgO(001) show a similar result, with the exception that the films are not disordered in the early growth stage, but form islands which immediately exhibit a crystalline FeO phase up to a thickness of 1nm. After that, the films grown in the inverse spinel structure on both MgO(001) and NiO/MgO(001). Additionally, the tr-HAXPES measurements of Fe3O4/SrTiO3(001) demonstrate that the FeO phase is only stable during the deposition process, but turns into a Fe3O4 phase when the deposition is interrupted. This suggests that this FeO layer is a strictly dynamic property of the growth process, and might not be retained in the as-grown films. In order to characterize the as-grown films, a technique is introduced to extract the cation depth distribution of Fe3O4 films from magnetooptical depth profiles obtained by fitting x-ray resonant magnetic reflectivity (XRMR) curves. To this end, x-ray absorption (XAS) and x-ray magnetic circular dichroism (XMCD) spectra are recorded as well as XRMR curves to obtain magnetooptical depth profiles. To attribute these magnetooptical depth profiles to the depth distribution of the cations, multiplet calculations are fitted to the XMCD data. From these calculations, the cation contributions at the three resonant energies of the XMCD spectrum can be evaluated. Recording XRMR curves at those energies allows to resolve the magnetooptical depth profiles of the three iron cation species in Fe3O4. This technique is used to resolve the cation stoichiometry at the surface of Fe3O4/MgO(001) films and at the interfaces of Fe3O4/MgO(001) and Fe3O4/NiO. The first unit cell of the Fe3O4(001) surface shows an excess of Fe3+ cations, likely related to a subsurface cation-vacancy reconstruction of the Fe3O4(001) surface, but the magnetic order of the different cation species appears to be not disturbed in this reconstructed layer. Beyond this layer, the magnetic order of all three iron cation species in Fe3O4/MgO(001) is stable for the entire film with no interlayer or magnetic dead layer at the interface. For Fe3O4/NiO films, we unexpectedly observe a magnetooptical absorption at the Ni L3 edge in the NiO film corresponding to a ferromagnetic order throughout the entire NiO film, which is antiferromagnetic in the bulk. Additionally, the magnetooptical profiles indicate a single intermixed layer containing both Fe2+ and Ni2+ cations. magnetic thin films magnetite Fe3O4 synchrotron radiation XRD XAS XMCD XRMR XRR 33.75 - Magnetische Materialien 68.47.Gh - Oxide surfaces 75.70.Rf - Surface magnetism ddc:530
300	A Tailor-Made Approach for Thin Films and Monolayer Assemblies of bis(oxamato) and bis(oxamidato) Transition Metal Complexes: A Tailor-Made Approach for Thin Films and Monolayer Assembliesof bis(oxamato) and bis(oxamidato) Transition Metal Complexes Abdulmalic, Mohammad A. 03 July 2013 (has links) The present work is dealing with the synthesis and characterization of mono- to trinuclear Cu(II)- and Ni(II)-containing bis(oxamato) and bis(oxamidato) complexes, respectively. It will be derived to which extent the spin density distribution of mononuclear complexes, determined by electron paramagnetic resonance studies experimentally and calculated by quantum mechanical calculations, can be regarded as a measure of the magnitude of magnetic superexchange interactions of corresponding trinuclear complexes. The usability of tailor-made trinuclear complexes for their deposition in form of thin film by spin-coating is described as well as the magneto-optical characterization of these thin films. It is shown, that the tailor-made functionalization of mono- to trinuclear bis(oxamidato) complexes with long alkyl chains is suited to allow these complexes to assembly in monolayers on, e.g., HOPG(0001) (highly-oriented pyrolytic graphite), whereas the functionalization of the alkyl chains with S atoms allows the generation of self-assembled monolayers on metallic gold. Furthermore it is shown, that the functionalization of mono- and trinuclear Cu(II)-containing bis(oxamato) complexes with ferrocenediyle fragments allows to modify the magnetic properties by making use of the oxidation process Fe(II)/Fe(III). / Die vorliegende Arbeit befasst sich mit der Darstellung und Charakterisierung ein- bis dreikerniger Cu(II)- bzw. Ni(II)-haltiger bis(oxamato) oder bis(oxamidato) Komplexe. Es wird abgeleitet, inwiefern die aus Elektronenenspinresonanz- Untersuchungen experimentell und die quantenmechanisch berechneten Spindichteverteilungen einkerniger Komplexe ein Maß für die Größe der magnetischen Superaustauschwechselwirkungen korrespondierender dreikerniger Komplexe darstellt. Die Eignung maßgeschneiderter dreikerniger Komplexe zu ihrer Überführung in dünne Filme im nm-Bereich mittels Rotationsbeschichtung auf Si/SiO2-Substraten wird beschrieben sowie die magneto-optische Charakterisierung dieser dünnen Filme. Es wird gezeigt, dass durch gezielte Funktionalisierung mit langkettigen Alkylresten ein- bis dreikernige Cu(II)-haltige bis(oxamidato) Komplexe geeignet sind, auf Substraten wie HOPG(0001) (hochorientiertes pyrolytisches Graphit) zu Monolagen zu assemblieren während die zielgerichtete Funktionalisierung der Alkylketten mit S-Atomen es ermöglicht selbst-assemblierte Monolagen auf metallischem Gold zu generieren. Zusätzlich wird beschrieben, dass durch die Funktionalisierung von ein- und dreikernigen Cu(II)-haltigen bis(oxamato) mit Ferrocendiylresten die magentischen Eigenschaften durch den Oxidationsprozess Fe(II)/Fe(III) gezielt modifiziert werden können. info:eu-repo/classification/ddc/540 ddc:540

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