Global ETD Search

81	SYNTHESIS, MODIFICATION, CHARACTERIZATION AND CATALYTIC STUDIES OF ZEOLITE BASED BIFUNCTIONAL CATALYSTS FOR HYDROISOMERIZATION REACTION GOPAL, SRIKANT 02 September 2003 (has links) No description available. Engineering, Chemical zeolite ZSM-12 synthesis large pore zeolites shape selectivity
82	Investigating the chemistry of cationic rhodium bisphosphine complexes : comparing reactivity in the solid state with solution Pike, Sebastian David January 2014 (has links) This thesis describes the synthesis and characterisation of a series of cationic rhodium bis-phosphine complexes. The reactivity of these new complexes in the solid-state and in solution is reported. In <b>Chapter 2</b> the synthesis of a series of rhodium bis-phosphine diene complexes is presented and the reactions of these complexes with hydrogen in the solid-state are investigated. Several examples of zwitterionic complexes coordinating the [BAr<sup>F</sup>4]<sup>─</sup> anion are produced by hydrogenation. A rare example of a sigma-alkane complex, [Rh(<sup>i</sup>Bu<sub>2</sub>PCH<sub>2</sub>CH<sub>2</sub>P<sup>i</sup>Bu<sub>2</sub>)(eta<sup>2</sup>-<sub>CH</sub>-eta<sup>2</sup>-<sub>CH</sub>-NBA][BAr<sup>F</sup>4]<sup>─</sup], is also formed in the solid-state, by a single crystal to single crystal transition driven by hydrogen. This complex is crystallographically characterised and displays two short Rh∙∙∙H−C sigma-interactions. Deuteration studies indicate that the agostic complex [Rh(<sup>i</sup>Bu<sub>2</sub>PCH<sub>2</sub>CH<sub>2</sub>P<sup>i</sup>Bu<sub>2</sub>)(eta<sup>2</sup>-<sub>CH</sub>-eta<sup>2</sup>-<sub>CH</sub>-NBE][BAr<sup>F</sup>4] may form as a short lived intermediate prior to the formation of the sigma-alkane complex. The temporal evolution of the solid-state hydrogenation reactions is monitored by powder X-ray diffraction methods. In <b>Chapter 3</b> the C−X activation of various aryl halides using the [Rh(<sup>i</sup>Bu<sub>2</sub>PCH<sub>2</sub>CH<sub>2</sub>P<sup>i</sup>Bu<sub>2</sub>)]<sup>+</sup> fragment is reported. The 'ligand innocence' of the phosphine with respect to intramolecular C−H activation is also discussed. A rare example of C−X activation in the solid-state is presented, which shows the formation of an isomer that is not observed by analogous solution routes. <b>Chapter 4</b> investigates solid-state ligand exchange reactions using ethene, butadiene, CO and NH3 gases. A solid-state transfer dehydrogenation reaction is reported within single crystals of [Rh(<sup>i</sup>Bu<sub>2</sub>PCH<sub>2</sub>CH<sub>2</sub>P<sup>i</sup>Bu<sub>2</sub>)(C<sub>2</sub>H<sub>4</sub>)<sub>2</sub>][BAr<sup>F</sup>4]. H/D exchange of NH3 can also occur in the solid state in the bis-ammonia complex [Rh(<sup>i</sup>Bu<sub>2</sub>PCH<sub>2</sub>CH<sub>2</sub>P<sup>i</sup>Bu<sub>2</sub>)(NH<sub>3</sub>)<sub>2</sub>][BAr<sup>F</sup>4]. A variety of rhodium complexes are tested as heterogeneous catalysts for the hydrogenation of ethene and the isomerisation of butene. In <b>Chapter 5</b> the binding affinity of a variety of fluorinated arenes to rhodium bis-phosphine fragments is presented using ESI-MS methods. The dependence upon the arene substituents, phosphine substituents and phosphine bite angle are discussed. 546
83	Etudes expérimentales des réactions des radicaux OH et des atomes d’oxygène d’intérêt pour l’atmosphère et la combustion / Experimental studies of the Reactions of OH radicals and Oxygen atoms of interest for the atmosphere and the combustion Morin, Julien 28 November 2016 (has links) L’objectif de ce travail consiste à étudier, d’une part, les réactions des nitrates d’alkyles avec OH qui ont un intérêt atmosphérique, et d’autre part, les réactions des radicaux OH avec les alcanes et des atomes d’oxygène avec les oléfines qui ont un intérêt pour la combustion. Toutes les réactions ont été étudiées dans des réacteurs à écoulement à basse pression, y compris le réacteur à écoulement à haute température mis en place dans le cadre de la thèse, couplés à un spectromètre de masse quadripolaire à ionisation par impact électronique. Pour les réactions OH + nitrate d’alkyle, la dépendance en température de la constante de vitesse a été mesurée pour dix nitrates d'alkyles, dont pour huit nitrates pour la première fois, sur une large plage de température. Pour six nitrates, les produits de la voie réactionnelle menant au recyclage direct de NO₂, arrachement d’atome H de carbone α, ont été observés et leur rendements mesurés. La grande quantité de données obtenues dans ce travail a été utilisée pour une mise à jour de la relation structure-activité (SAR) pour les réactions d'alkyles nitrates avec OH et a permis d'améliorer les modèles atmosphériques actuels. Les études de réactions de radicaux OH avec les trois alcanes et de l'atome O avec l’éthylène et le propène ont permis de déterminer les constantes de vitesse respectives sur une large gamme de température allant de 220 à 900 K. De plus, la distribution des produits de réactions multivoies O + oléfine en fonction de la température a été déterminée pour la première fois. Ces résultats permettront d’améliorer les modèles de combustion actuellement utilisés. / The objective of this work was to study the reactions of alkyl nitrates with OH radicals relevant to atmosphere and reactions of OH radical with alkanes and oxygen atoms with olefins of interest for combustion chemistry. All reactions were studied in low pressure flow reactors (including high temperature flow reactor developed during the thesis) coupled to a quadrupole mass spectrometer with electron impact ionization. For OH reaction with nitrates, the temperature dependence of the rate constant was measured in an extended temperature range for ten alkyl nitrates, for eight of them for the first time. For six nitrates, the products of reaction pathway leading to direct recycling of NO₂ (H atom abstraction from α carbon) were observed and their yields were measured. The large amount of data obtained in this work has been used for an update of the structure-activity relation (SAR) for the reactions of alkyl nitrates with OH and will improve existing atmospheric models. For the reactions of OH radicals with three alkanes and O atoms with ethene and propene the rate constants were measured over a wide temperature range, 220-900 K. Moreover, the distribution of the products of the multichannel reactions O + olefin was determined as a function of temperature for the first time. These results are expected to improve current combustion models. Chimie atmosphérique Radical OH Atome d’oxygène Réaction en phase gazeuse Combustion Cinétique Constante de vitesse Rapport de branchement Alcane Nitrate Oléfine Atmospheric chemistry Hydroxyl radical Oxygen atoms Gas phase reaction Combustion Kinetics Rate constant Branching ratio Alkane Nitrate Olefin 541.361
84	Investigation of Hydrogenated and Fluorinated Surfactant Based-Systems for the Design of Porous Silica Materials / Systèmes à base de tensioactifs hydrogénés et fluorés pour la préparation de matériaux poreux silicatés Du, Na 23 July 2010 (has links) Ce travail est consacré à l’étude des propriétés de systèmes à base de tensioactifs non ioniques hydrogéné et fluoré dans le but de préparer des matériaux poreux silicatés. L’effet de la solubilisation d’hexadécane ou de décane dans des micelles de C12H25CO(OC2H4)9OCH3 conduit à la formation de silices mésoporeuses à plus larges pores, tandis qu’aucun effet de gonflement n’est observé avec l’ajout de cyclohexane. Lorsque les matériaux sont préparés avec des micelles de C8F17C2H4(OC2H4)9OH, l’ajout de perflorooctylbromure (PFOBr) augmente la taille des mésopores. Par ailleurs, l’incorporation de grandes quantités de PFOBr ou de perfluorodécaline conduit à la formation de macropores. Avec C7F15C2H4(OC2H4)8OH, l’incorporation de (C4F9CH)2 permet d’élargir les mésopores et de créer un réseau de macropores, tandis que l’ajout de PFOBr ne conduit ni à la formation de mésopore, ni à la formation de macropore. Les résultats mettent en évidence que la formation de matériaux macroporeux à partir d’émulsions hydrogénées ou fluorées est favorisée avec les systèmes qui présentent des valeurs de PIT (Température d’Inversion de Phase) élevées. Pour finir, l’effet de l’addition de différents alcools dans le système à base de C8F17C2H4(OC2H4)9OH a été étudié. La détermination des paramètres structuraux de la phase cristal liquide hexagonal, indique que les alcools à courte ou moyenne chaîne jouent le rôle de solvant, tandis que le fluoro-octanol joue celui d’un co-tensioactif. L’addition d’alcools courts provoque la destruction progressive des micelles qui perturbe le mécanisme d’auto-assemblage et les matériaux obtenus présentent des structures vermiformes / This work deals with the study of the properties of nonionic hydrogenated and fluorinated surfactant based systems which are related to the synthesis of porous silica. The effect of the solubilization of low fraction of hexadecane or decane in the micelles of C12H25CO(OC2H4)9OCH3 leads to the formation of large mesoporous silica, whereas no swelling effect was noted with cyclohexane. When the materials are templated by fluorinated micelles of C8F17C2H4(OC2H4)9OH, large pore mesoporous materials are obtained with perfluorooctyl bromide (PFOBr). Both PFOBr and perfluorodecalin give rise to macropores at high oil concentrations. With C7F15C2H4(OC2H4)8OH, the fluorocarbon (C4F9CH)2 is not only an effective expander to enlarge the pore size of mesoporous materials, but also very favourable for the design of macropore network. On the contrary, with PFOBr, there is neither mesopore nor macropore. Therefore, both hydrogenated and fluorinated systems obey to the same rule: the formation of macroporous materials template by emulsions is favoured with systems which exhibit a high value of the PIT. Lastly, alcohols used as additives in the C8F17C2H4(OC2H4)9OH -water system to tune the characteristics of the recovered materials. The structural parameters of the hexagonal liquid crystal show the short and medium alcohols behaved like solvent, while the long chain and fluorinated octanol acted as co-surfactant. The short alcohols provoke a micelle breaking effect. Thus, the self-assembly mechanism is disturbed and wormhole-like structures are recovered Tensioactif hydrogéné non ionique Tensioactif fluoré non ionique Micelles Émulsion concentrée Alcane Alcool Matériaux mésoporeux Matériaux macroporeux Nonionic hydrogenated surfactant Nonionic fluorinated surfactant Micelles Concentrated emulsion Alkane Alcohol Mesoporous materials Macroporous materials
85	A Computational Study of C-H Binding, C-H Activation and Fluxional Processes of d6 Half- Sandwich Complexes Thenraj, M January 2014 (has links) (PDF) Significant developments have been made in the field of C–H activation. However, various disadvantages, mainly low reactivity and selectivity, limit their usage in large-scale synthesis. It is crucial to understand the mechanisms and the nature of the transient species involved in the C–H activation paths to develop effective catalytic routes for homogeneous C–H functionalization reactions. Computational techniques are employed in this study to throw light on these processes. Chapter 1 briefly introduces C–H activation and functionalization reactions. After classifying the reactions on the basis of mechanisms, computational studies on the mechanisms of C–H activation reactions are described. The challenges involved in the discovery of efficient homogeneous C–H functionalization catalysts and progress made in the field are discussed. The insights provided to overcome the problems associated with the catalytic C–H functionalization reactions in a few examples are highlighted. In Chapter 2, DFT model studies are carried out to estimate the affinity and selectivity of 16-electron half-sandwich d6-metal fragments (η5–C5H5)Re(CO)2 and (η6–C6H6)W(CO)2 for binding with alkane C–H bonds. Different C–H binding sites of pentane, at the M06 level of theory have been evaluated. The effects of ancillary ligand variations on the metal–pentane binding strength are studied by substituting different ligands such as N-heterocyclic carbene (NHC), PF3 and NO+ for one of the carbonyl ligands. Isomers of the metal-pentane C–H σ-complexes studied in this chapter are shown in Scheme 1. Binding energies of the terminal methyl C–H bonds (C1 and C5) are significantly lower than those of the methylene C–H bonds (C2, C3 and C4) in all the cases. The metal–pentane binding interactions of the rhenium complexes are significantly stronger than those of the corresponding tungsten analogs. The PF3 complexes have slightly greater binding energies compared to the CO complexes, in both Re(I) and W(0) analogs. These results are in conformity with the experimental results. The electron-deficient nitrosyl complexes have the highest binding energies. These results illustrate that by proper tuning of the electronic factors of the transition-metal fragments with different ancillary ligands, the alkane C–H binding affinity can be controlled. Energy decomposition analyses (EDA) are carried out to determine the nature of the interaction between the metal fragments and pentane C–H bonds. Scheme 1. Formation of pentane C–H σ-complexes Chapter 3 addresses the energetics of various intramolecular site-exchange (chain walking) processes and C–H oxidative addition reactions (Scheme 2) of the pentane C–H σ-complexes studied in Chapter 2. Four possible site-exchange processes such as 1,2-, 1,3-, 1,4- and 1,5-migration processes are studied using DFT/M06 level of theory. η2-(H,H)···M type transition states are located for these migrations (Scheme 2). The 1,3-migration is the most favorable process. Two different pentyl hydride isomers, as shown in Scheme 2, are obtained for oxidative addition of methyl and methylene C–H bonds of pentane for all systems, at same level of theory. Oxidative insertion of metal into the methyl C–H bonds is more favorable than insertion into the methylene C–H bonds for all complexes. The activation energies of all site-exchange and C–H oxidative addition processes of the Re(I) complexes are significantly greater than those of the corresponding W(0) complexes. For all these processes, the activation barriers of the electron-deficient NO+ complexes are the greatest among all ligand systems studied, in both Re(I) and W(0) systems. These results are consistent with the experimental results and suggest that the experimentally observed pentyl hydride isomer [(η5–C5H5)Re(CO)(PF3)H(C5H11)] might be Isomer B and not Isomer A (Scheme 2). The C–H oxidative addition reactions are less favorable than dynamic site-exchange processes in all complexes. These results imply that the metal fragments migrate along the pentane chain more easily than insert into the pentane C–H bonds. Scheme 2. Alkane chain walking and C–H oxidative addition reactions Chapter 4 deals with the mechanisms and energetics of a unique metal migration process of an olefin complex that proceeds via olefinic (C–H)···Metal interaction. Migration of the Re(I) fragment from one π face of the olefin to the opposite π face in [(η5–C5H5)Re(NO)(PPh3)(PhCH═CH2)]+ has been documented experimentally by Gladysz and coworkers. The experimental results provide evidences for an intramolecular mechanism for this process (i.e., without styrene dissociation from Re(I)) and based on kinetic isotope effects (KIE), the involvement of a trans C–H bond is indicated. Either oxidative addition or a vinylic (C–H)···Re interaction could account for the experimentally observed kinetic isotope effect. In this study, the free energy of activation for the migration of Re from one enantioface of the olefin to the other through various pathways is computed using DFT calculations at the B3LYP and M06 levels. Two pathways, one that involves migration of Re through a trans (C–H)···Re interaction and another that involves oxidative addition of Re into the trans C–H bond, are identified as possible paths (Scheme 3) at the B3LYP level. Surprisingly, at the M06 level, DFT computes a lower energy path for the conducted tour mechanism that is not consistent with the experimental KIE. But the computed energy profiles for the reaction are consistent with the experiment when computations are carried out at the B3LYP level. Scheme 3. Mechanisms of olefin π face exchange reaction In Chapter 5, the mechanistic studies of C–H metathesis of d6 half-sandwich complex [(η5–C5Me5)Ru(CH3)(CO)(C6H6)] are discussed. A 1-step mechanism that proceeds via a four-center transition state and a 2-step Oxidative Addition and Reductive Coupling mechanism (OA/RC) are identified as possible mechanisms (Scheme 4) using DFT/M06 level of theory. The 1-step mechanism is more favorable than the 2-step mechanism. As in the oxidative addition intermediate, metal–hydrogen bond is observed in the four-center transition state of the 1-step mechanism. This mechanism is referred to as Oxidative Hydrogen Migration (OHM) rather than σ-Bond Metathesis (σ-BM) which proceeds via a transition state without M−H bonding. The effects of metal (M = Fe(II), Ru(II) or Os(II)) and ancillary ligand (L = H–, NHC, CO or NO+) variations on the mechanisms and energetics of the model Cp complex [(η5–C5H5)M(CH3)(L)(C6H6)] are also studied (Scheme 4). Scheme 4. Oxidative hydrogen migration vs Oxidative addition/reductive coupling Increase in the electron-density on the metal center, using electron-donating ligands such as H−, favors the formation of the oxidative species (intermediate or transition state) and reduces the activation barriers of the C–H metathesis reaction. Similarly, the electron-withdrawing NO+ ligand, which reduces the electron density on the metal center, increases the activation energies of the C–H metathesis reaction or disfavors the formation of the oxidative species. Factor affecting the choice of the mechanism of the C–H metathesis reaction is found to be the net charge transfer between the two fragments [(η5–C5H5)M(CH3)(L)] and benzene in [(η5–C5H5)M(CH3)(L)(C6H6)]. The computational studies reported in this thesis provide valuable insight into the mechanisms and energetics of C–H binding, activation and fluxional processes of the (C–H)···Metal σ alkane and alkene complexes. These studies will be helpful in solving problems associated with the C–H activation reactions. Reference Thenraj, M.; Samuelson, A. G. Organometallics 2013, 32, 7141. (For structural formula and figures pl see the abstract pdf file.) Hydrocarbons Carbon-Hydrogen (C-H) Activation Carbon-Hydrogen (C-H) Functionalization Organometallic Compounds Half-sandwich Complexes Carbon-Hydrogen (C-H) Binding Methylene C-H Bonded Alkane Complexes Methylene C-H Bonded Alkene Complexes C−H Metathesis Organic Chemistry
86	Pyridinium Salts: from Photoinduced Through-Space Electron Delocalization to Novel Spontaneous Reactions Causing Thermal DNA Damage Tcyrulnikov, Nikolai 06 August 2019 (has links) No description available. Biochemistry Chemistry Physical Chemistry Organic Chemistry photoinduced electron transfer pimerization pyridinium salts pimerization monoquat pimerization DFT DFT pyridinium salts organic chemistry epoxidation aerobic oxidation epoxidation in air alkane epoxidation DNA damage aerobic DNA damage
87	Molecular Rearrangements at Polymeric Interfaces Probed by Sum Frequency Spectroscopy Kurian, Anish 21 April 2011 (has links) No description available. Materials Science Physical Chemistry Polymer Chemistry Polymers Sum frequency generation spectroscopy Friction Adhesion Aging Acid-base interaction pentadecane alkane PS-PMMA blends polymer blends interaction energy interface surface molecular rearrangements crack Poly(dimethylsiloxane) sapphire prism
88	Towards Understanding Interfacial Phenomena in Polymer-CO<sub>2</sub> Systems Talreja, Manish 01 September 2010 (has links) No description available. Chemical Engineering PDFT CO<sub>2</sub>-NIL Supercritical CO<sub>2</sub> polymer thin films
89	First Principles Analysis of Catalytic Conversion of Light Alkanes to Value-added Fuels and Chemicals Yinan Xu (12877394) 04 October 2022 (has links) <p> </p> <p>Full exploitation of shale resources requires new catalytic techniques to eﬃciently convert the methane, ethane, and propane found in shale gas to value-added fuels and chemicals. A promising process of converting ethane and propane involves catalytic light alkane dehydrogenation and the subsequent oligomerization of light alkenes. The ﬁrst part of this work focuses on the examination of the mechanistic details of propane dehydrogenation on Pt-based alloy catalysts, where ﬁrst principles-based free energy, microkinetic, and degrees of rate control analyses are performed to understand and rationalize the selective propane dehydrogenation using a Pt3Mn alloy. We show that only the under-coordinated, Mn-decorated Pt sites, represented by a Pt3Mn(211) surface, are selective to propylene formation, which can be attributed to several key mechanistic details: (1) facile propylene desorption and (2) hindered pathways that are inherently non-selective to propylene and lead to the formation of isomers. These kinetic details can, in turn, be interpreted using the free energy landscapes of propane dehydrogenation on the Pt3Mn(211) surface, which features a reasonably stronger binding of propylene than those of its isomers. From this study, we extract two selectivity descriptors for propane dehydrogenation: The energetics of propylene desorption versus deep-dehydrogenation, as well as the energetics of the formation of propylene versus its isomers. The properties can be used for designing further improved light alkane dehydrogenation catalysts.</p> density functional theory heterogeneous catalysis light alkane Olefin Oligomerization methane activation chemistry Amorphous Silica Surface metal catalyst nanoparticles
90	Développement d’une imagerie de résistance électrique locale par AFM à pointe conductrice en mode contact intermittent / Development of a local electrical resistance imaging by conductive tip AFM in intermittent contact mode Vecchiola, Aymeric 29 April 2015 (has links) Le microscope à force atomique (AFM) permet de caractériser avec une excellente résolution spatiale les surfaces d’échantillons de différentes natures et peut être mis en œuvre dans des milieux variés. Cette versatilité a favorisé le développement d’un grand nombre de techniques dérivées, destinées à investiguer diverses propriétés physiques locales. Le LGEP a ainsi réalisé un module, le Résiscope, capable de mesurer la résistance électrique locale à la surface d’un échantillon polarisé en continu, sur une gamme de 11 décades. Mise au point en mode contact, où la pointe exerce en permanence une force sur l’échantillon, cette technique fonctionne très bien sur des matériaux durs, mais trouve ses limites sur des échantillons mous ou fragiles puisque dans certaines conditions, la pointe peut altérer leur surface. Pour de tels échantillons, un mode contact intermittent, dans lequel la pointe vient à intervalles réguliers toucher très brièvement la surface, est plus approprié, mais complique la réalisation des mesures électriques. Le but de la thèse consistait à lever cette difficulté en modifiant le Résiscope pour pouvoir l’associer au « Pulsed Force Mode », mode intermittent où la pointe oscille à une fréquence de 100Hz à 2000Hz.Différentes évolutions matérielles et logicielles ont été apportées pour permettre le suivi temporel détaillé du signal de résistance électrique à chaque établissement/rupture de contact (indispensable pour passer en revue les phénomènes liés à l’intermittence), de même que pour pouvoir travailler à des vitesses de balayage acceptables. Pour l’imagerie, les meilleurs contrastes ont été obtenus grâce à une électronique de synchronisation et de traitement prenant en compte les valeurs de résistance électrique à des moments bien précis. Pour tester ce nouveau système, nous avons dans un premier temps comparé les courbes de résistance et de déflexion que nous obtenons par ce mode avec celles considérées classiquement dans le mode approche-retrait. Nous avons ensuite étudié l’influence des principaux paramètres (fréquence et amplitude d’oscillation, force d’appui, type de pointe, etc.) sur les mesures topographiques et électriques, en utilisant le HOPG comme matériau de référence. Ces essais ont notamment permis de mettre en évidence un retard quasi systématique du signal électrique par rapport au signal de déflexion (autre que le temps de mesure propre au Résiscope), dont nous n’avons pu élucider l’origine. Une fois ces connaissances acquises, nous avons étudié deux types d’échantillons organiques, l’un à caractère académique – des monocouches auto-assemblées d’alcanethiols (SAMs), l’autre à finalité plus applicative – des couches minces formées d’un réseau interpénétré de deux constituants (P3HT:PCBM) destinées aux cellules photovoltaïques. Dans les deux cas nous avons montré la pertinence de l’outil Résiscope en mode intermittent pour obtenir des informations qualitatives et quantitatives. Parallèlement à ces travaux sur matériaux fragiles, nous avons mené une étude annexe sur un phénomène de croissance de matière à caractère isolant constaté dans des conditions particulières sur différents matériaux durs, qui a été interprété comme la formation de polymère de friction sous l’effet des nano-glissements répétés associés à la déflexion du levier.Ces travaux ont été réalisés dans le cadre d’une convention CIFRE avec la société Concept Scientifique Instruments, adossée au projet ANR « MELAMIN » (P2N 2011). / The atomic force microscope (AFM) allows to characterize with excellent spatial resolution samples of different types of surfaces and can be implemented in various environments. This versatility has encouraged the development of a large number of derivative technics, intended to investigate various local physical properties. The LGEP thus achieved a module, the Résiscope, capable of measuring the local electrical resistance on the surface of a sample polarized continuously, on a range of 11 decades. Developed in contact mode, where the tip continuously exerts a force on the sample, this technic works well on hard materials, but finds its limits on soft or fragile samples since under certain conditions, the tip can alter the surface. For such samples, an intermittent contact mode, in which the tip comes at regular intervals touch very briefly the surface, is more appropriate, but complicates the achievement of electrical measurements. The aim of this thesis was to overcome this difficulty by changing the Résiscope to be able to join the "Pulsed Force Mode", intermittent mode where the tip oscillates at a frequency of 100Hz to 2000Hz. Different hardware and software changes have been made to permit the detailed temporal monitoring of the electrical resistance signal to each make / break contact (necessary to review the phenomena related to intermittency), as well as to be able to work in acceptable scan speeds. For imaging, the best contrasts were obtained through an electronic timing and treatment taking into account the electrical resistance values at specific times.To test this new system, we have initially compared resistance and deflection curves we get by this mode with those considered classically in the force-distance curves mode. We then investigated the influence of main parameters (frequency and amplitude of oscillation, setpoint, coating of the tips, etc.) on the topographical and electrical measurements, using the HOPG as reference material. These tests resulted to highlight a nearly systematic delay of the electrical signal relative to the deflection signal (other than the Resiscope measure time), which we were not able to elucidate the origin. Once these knowledge acquired, we studied two types of organic samples, one in academic nature - Self-Assembled Monolayers of alkanethiols (SAMs), the other more applicative purpose – formed of thin layers of an interpenetrating network of two components (P3HT:PCBM) for photovoltaic cells. In both cases we have shown the relevance of the Resiscope tool in intermittent mode to obtain qualitative and quantitative information. In addition to these work on fragile materials, we conducted an annex study on a phenomenon of growth material of insulating nature found in special conditions on various hard materials, which has been interpreted as the friction polymer formation as a result of repeatedly nano-sliding associated with the deflection of the cantilever. These investigations were conducted under a CIFRE agreement with the Concept Scientific Instruments company, backed by the ANR MELAMIN» (P2N 2011) project. AFM Microscopie à Force Atomique PFM Résiscope Courbes approche-retraits Contact intermittent SAM P3HT:PCBM Polymères de frictions HOPG Microcontact Nano-glissement AFM Atomic Force Microscopy PFM Resiscope Force-distance curves Intermittent contact SAM P3HT: PCBM Friction polymers HOPG Micro switch Nano-sliding

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