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111	Adsorption and manipulation of doped fullerenes on silicon surfaces Butcher, Matthew James January 2000 (has links) No description available. 530.41
112	Fullerene nanostructures, monolayers and thin films Cotier, Bradley Neville January 2000 (has links) No description available. 530.41
113	Structure et dynamique de systèmes unidimensionnels modèles : les nano-peapods de carbone / Structure and dynamics of model one-dimensional systems : carbon nano-peapods Bousige, Colin 28 November 2012 (has links) Ce travail de thèse est consacré à l'étude sur une large gamme de températures d'un système unidimensionnel modèle, les nano-peapods de carbone. Ces composés sont constitués de fullerènes (C60, dans notre cas) insérés dans des nanotubes de carbone monofeuillets. Les diamètres des fullerènes et des tubes étant concordant, les fullerènes s'arrangent selon un réseau 1D.Dans le premier chapitre de ce manuscrit, nous décrivons la synthèse des peapods de carbone. Dans les deux chapitres suivants, nous décrivons les différents modèles et méthodes expérimentales qui nous permettent de déterminer l'évolution de la structure moyenne des chaînes de fullerènes, ainsi que la dynamique de rotation et de translation des molécules.Dans les trois derniers chapitres, nous décrivons l'évolution de la structure et de la dynamique des chaînes sur trois gammes de températures, que nous appelons hautes (500-1100 K), basses (0-200 K), et intermédiaires (200-500 K). Les résultats expérimentaux concernant deux types d'échantillons, les peapods monomères et les peapods polymères (dans lesquels les degrés de liberté de rotation sont restreints) sont confrontés à des modèles analytiques. Nous mettons en évidence trois comportements différents des chaînes dans ces trois gammes de température. / This work is dedicated to the study of the structural and dynamical behavior of a model one-dimensional system over a wide temperature range: carbon nano-peapods. This compound is constituted of fullerenes (C60, in our case) inserted inside single-walled carbon nanotubes. The perfect match between the inner diameter of the tubes and the diameter of the fullerenes results in a chain organization of the C60 molecules.The synthesis of these peapods is described in the first part of this manuscript. The two next chapters are aimed to the description of the different experimental and simulation methods that are used to monitor the structural and dynamical behavior of the C60 molecules.In the three last chapters, we describe the behaviour of the C60 molecules over three temperature ranges, labeled high (500-1100 K), low (0-200 K), and intermediary (200-500 K) ranges. By comparing experimental results to analytical models for both monomer and polymer peapods (the rotational degree of freedom being hindered in the latter), we highlight three different behaviors of the molecules in these three ranges. Nanotubes Fullerènes Diffraction Spectroscopie Neutron Modélisation Systèmes unidimensionnels Nanotubes Fullerenes Diffraction Spectroscopy Neutron Modeling One-dimensional systems
114	Molecular Fullerides Fullagar, Wilfred Kelsham, w_fullagar@hotmail.com January 1997 (has links) The closed shell structures of certain all-carbon fragments originally observed in mass spectroscopy experiments leads to the enhanced stability of these species, known as fullerenes, which have excited sufficient interest amongst chemists and physicists over the last decade to warrant the award of the 1996 Nobel Prize for Chemistry to their discoverers. ¶ Studies of the stability, symmetry, and consequent remarkable properties of fullerenes began in earnest in 1991 with the development of a technique enabling the production and purification of macroscopic quantities of material. The best known and most widely studied fullerene is the truncated icosahedral C[subscript 60] molecule, which forms the basis of the present work. ¶ One important property of C[subscript 60] is that it forms salts with sufficiently electropositive species, such as the alkali metals. The resulting salts contain C[subscript 60] anions and are known as fullerides. Certain of these salts display metallic behaviour, and some superconduct at temperatures as high as 33 K. ¶ Three aspects of fulleride research are addressed in this work. These are: i) the preparation, crystal structure determination and superconductivity characterization of several new fullerides, particularly those including ammonia as an additional intercalant; ii) the electronic structure of the C[superscript n-, subscript 60] (n = 1 - 6) anions, as probed by solution-phase near infrared absorption spectroscopy; and iii) the molecular dynamics of a number of fullerides, superconducting and non-superconducting, by inelastic neutron scattering. ¶ This work has grown out of an Honours project also concerning C[subscript 60], the combined duration of the two studies covering essentially the entire history of this widely and competitively studied field. fullerides fullerenes C60 superconductivity near-infrared spectroscopy neutron scattering synchrotron X-ray powder diffraction vibrational analysis liquid ammonia titration
115	Carbon-based magnetic nanohybrid materials for polymer composites and electrochemical energy storage and conversion Kim, Il Tae 01 November 2011 (has links) The role of nanohybrid materials in the fields of polymer composites and electrochemical energy systems is significant since they affect the enhanced physical properties and improved electrochemical performance, respectively. As basic nanomaterials, carbon nanotubes and graphene were utilized due to their outstanding physical properties. With these materials, hybrid nanostructures were generated through a novel synthesis method, modified sol-gel process; namely, carbon nanotubes (CNTs)-maghemite and reduced graphene oxide (rGO)-maghemite nanohybrid materials were developed. In the study on polymer composities, developed CNTs-maghemite (magnetic carbon nanotbues (m-CNTs)) were readily aligned under an externally applied magnetic field, and due to the aligned features of m-CNTs in polymer matrices, it showed much enhanced anisotropic electrical and mechanical properties. In the study on electrochemical energy system (Li-ion batteries), rGO-maghemite were used as anode materials; as a result, they showed improved electrochemical performance for Li-ion batteries due to their specific morphology and characteristics. Li-ion batteris Anode Carbon nanotubes Graphene Polymer composites Iron oxide Nanostructured materials Nanotubes Lithium ion batteries Fullerenes
116	Theoretical studies of the exohedral reactivity of fullerene compounds Osuna Oliveras, Sílvia 26 March 2010 (has links) Des del descobriment del buckminster ful.lerè el 1985, s'ha despertat un interés enorme per entendre la reactivitat química així com les propietats d'aquests compostos. La funcionalització exoèdrica del ful.lerè més abundant, el C60, està força ben establerta. Tanmateix, la investigació en aquest camp encara continua oberta ja que s'han sintetitzat una gran varietat de derivats molt prometedors donades les seves futures aplicacions. La tesi comprèn quinze capítols que contenen set publicacions relacionades. Els primers dos estudis es basen en la reacció Diels-Alder sobre els anomenats metal.loful.lerens endoèdrics TNT X3N@C78, X= Sc, Y. Aquest projecte de investigació està motivat pel desconeixament existent sobre les possibles conseqüències de l'encapsulació del grup X3N. El tercer estudi descriu minuciosament els canvis detectats en la funcionalització exoèdrica un cop s'ha produït l'encapsulació dels diferents gasos nobles. En aquesta tesi s'estudia en detall l'ús de l'aproximació ONIOM per a estudiar reaccions de cicloaddició en compostos ful.lerènics. Els resultats d'aquest projecte són d'alt interès per a la realització dels estudis posteriors sobre la reacció de Diels-Alder i la 1,3-dipolar en ful.lerens i derivats. Finalment, l'última part d'aquesta tesi es basa en les propietats antioxidants de determinats ful.lerens. A l'últim treball inclòs en aquesta tesi s'estudia en detall el mecanismo de reacció per a la eliminació del ió superòxid en presència de ful.lerens. / Since the buckminster fullerene discovery in 1985, a huge interest for understanding the chemical reactivity as well as the chemical properties of fullerene compounds has been awakened. The exohedral functionalization of the archetypal compound C60 is nowadays considered to be quite well-established. Still, the research in this field is open as a wide variety of derivatives with intriguing potential applications have been synthesized. The thesis is divided into fifteen chapters that contain seven related publications. The first two studies are based on the Diels-Alder reaction involving the Trimetallic Nitride Template (TNT) endohedral metallofullerenes X3N@C78, X = Sc, Y . This investigation project was basically motivated by the unclear evidence about the possible consequences of the X3N. The third study thoroughly describes the change on the exohedral functionalization upon noble gas encapsulation. In the fourth study included in this thesis, the performance of the ONIOM approach for studying cycloaddition reactions involving fullerene compounds is studied in detail. Results from the latter project are of interest for the following studies involving the 1,3-dipolar and the Diels-Alder cycloaddition reactions where the ONIOM strategy is employed. Finally, the last part of this thesis is based on the antioxidant properties of fullerene compounds, where the mechanism of action for the superoxide removal involving fullerene compounds is unraveled. The understanding of the SOD removal mechanism could represent a big improvement to design new fullerene derivatives with higher antioxidant properties. Reaction mechanisms Mecanismos de reacción Mecanismes de reacció Computational chemistry Química computacional Cycloaddition Cicloadición Cicloaddicció Fullerenes Fullerenos Ful·lerens 54
117	Effect of Nanoparticle Inclusions and Solvent Annealing on Block Copolymer Morphology Palta, Deepali 24 August 2007 (has links) Using block copolymers for large-area periodic structure fabrication is of great interest because of the potential for low fabrication costs and simplicity of the processing. The concept is that by selective inclusion of the nanoparticles into one of the blocks of a self-assembling copolymer, the nanoparticles are forced into a defined spatial arrangement determined by the phase morphology of the copolymer. Although copolymers can form well defined structures, they inherently have a 'polycrystalline' structure in the bulk, meaning that there is no long-range order of the domains. This thesis addresses both the effect of inclusion of the nanoparticles and the long range ordering of block copolymer domains. The first part of the thesis focuses on the study of the effect of nanoparticle inclusions on the phase morphology of the poly(styrene-butadiene) diblock and poly(styrene-butadiene-styrene) triblock copolymers. For gold inclusions, it was found that even at relatively low concentrations of inclusions (less than 1 wt./vol.%) the block copolymer phase morphology is altered from that of the native copolymer. By contrast to the block copolymer-gold system, no significant changes in bulk morphology is observed for similar fullerene concentrations. In the second part of the thesis, the evolution of the order in cylinder forming poly(styrene-butadiene-styrene) triblock copolymer thin films as a function of the type of solvent vapor, exposure time to the saturated vapors and substrate surface energy is discussed. Solvent vapors of dimethoxyethane, ethyl acetate and cyclohexanone were found to be the most effective for our polymer films. Solvent vapors differing in their selectivity towards the block copolymer domains have different kinetics of ordering which is explained in terms of the difference in the interaction of the solvent between the two different copolymer blocks. SAXS TEM GISAXS Solvent annealing SB SBS Inclusion Nanoparticles Block copolymers Quantum computers Nanoparticles Self-assembly (Chemistry) Fullerenes Gold
118	Brisure de la symétrie icosaédrique du C60 vers des fullerènes plus grands et les nanotubes apparentés Bourret, Emmanuel 03 1900 (has links) No description available. Fullerènes Nanotubes Symétrie icosaédrique Brisure de symétrie Polytopes Fullerenes Icosahedral symmetry Symmetry breaking
119	Magnetic studies on lanthanide-based endohedral metallofullerenes Velkos, Georgios 13 December 2021 (has links) My PhD thesis is an in-depth study of the magnetic properties of a series of different lanthanide-based endohedral metallofullerenes. They are sphere-like shape carbon molecules (fullerenes) with embedded magnetic lanthanide elements inside, suitable for spintronic and high dense-data storage applications. In this work, I studied two families of endohedral metallofullerenes (di-lanthanides and Dy-oxides) which showed great versatility in the magnetic behavior, depending on the type of the encapsulated cluster, and the size and shape of the carbon cage.:Magnetic studies on lanthanide dimetallofullerenes Gd2@C80(CH2Ph) and Gd2@C79N Tb2@C80(CH2Ph) and Tb2@C79N TbY@C80(CH2Ph) Ho2@C80(CH2Ph) Er2@C80(CH2Ph) Magnetic studies on Dy-oxide clusterfullerenes Dy2O@C72 Dy2O@C74 Dy2O@C82 (three isomers) info:eu-repo/classification/ddc/530 ddc:530
120	Synthese und magnetische Eigenschaften von Dysprosium-Nitrid-Clusterfullerenen Schlesier, Christin 16 January 2019 (has links) Der Fokus dieser Dissertation liegt auf den gemischt-metallischen Dysprosium-Nitrid-Clusterfullerenen. Durch die Inklusion von bis zu drei Lanthanoiden mit unvollständig gefüllten 4f-Orbitalen weisen diese Clusterfullerene eine Vielzahl interessanter magnetischer Eigenschaften auf. Die magnetische Charakterisierung der Nitrid-Clusterfullerene DyxSc3-xN@C80-Ih (x = 1 - 3) zeigte bereits 2014 den Einfluss der Stöchiometrie auf das magnetische Verhalten und stufte diese Verbindungen als Einzelmolekülmagnete ein. Im Rahmen dieser Arbeit wurde das Zusammenspiel zwischen den strukturellen Eigenschaften und dem magnetischen Verhalten der Clusterfullerene untersucht. Der Fokus lag auf der Synthese und der magnetischen Charakterisierung von Clusterfullerenen mit unterschiedlicher Kohlenstoffkäfiggröße bzw. -isomerie, unterschiedlicher Clusterzusammensetzung bzw. Cluster-bildender Metalle und dem Einfluss des nichtmetallischen Zentralatoms des Clusters. Die Dysprosium-Nitrid-Clusterfullerene wurden über ein modifiziertes Krätschmer-Huffman-Verfahren und unter Verwendung der trimetallischen Nitridtemplatmethode synthetisiert und anschließend mittels HPLC fraktioniert und massenspektrometrisch analysiert. Die magnetische Charakterisierung der Clusterfullerene gelang mittels DC-SQUID-Magnetometrie. Die im Rahmen dieser Arbeit untersuchten Fullerene konnten als Einzelmolekülmagnete identifiziert werden. Das magnetische Verhalten der Nitrid-Clusterfullerene wird hauptsächlich durch den Cluster M3N und weniger durch den diamagnetischen Kohlenstoffkäfig bestimmt. Jedoch wurde für DySc2N@C80-D5h und Dy2ScN@C80-D5h eine verringerte Lebensdauer der Magnetisierung im Vergleich zu ihren Analoga mit Ih-Kohlenstoffkäfigsymmetrie beobachtet. Stärkeren Einfluss hat die Kohlenstoffkäfiggröße. Für DySc2N@C68, Dy2ScN@C84 und Dy2ScN@C88 wurde eine deutliche Abnahme der Remanenz, der Blocktemperaturen und der Relaxationzeiten festgestellt. Als Ursache werden die veränderten Dy-N-Bindungslängen diskutiert. Die Clusterfullerene Dy2MN@C80-Ih und DyM2N@C80-Ih (M = Gd, Er, Lu) enthalten neben Dysprosium ein weiteres Lanthanoid im Cluster. Das zweite Lanthanoid M ruft eine erhebliche Änderungen der magnetischen Eigenschaften hervor. Die paramagnetischen Metalle Gd und Er wirken sich stark negativ auf die magnetische Remanenz aus. Für Dy2LuN@C80-Ih und DyLu2N@C80-Ih wurde ein ähnliches magnetisches Verhalten wie für DyxSc3-xN@C80-Ih (x = 1, 2) verzeichnet. Durch die Verdünnung des Fullerens DyLu2N@C80-Ih mit der diamagnetischen Verbindung Lu3N@C80-Ih wurde zusätzlich eine Erhöhung der Hysterese der Magnetisierung im untersuchten Temperaturbereich registriert. Der Einfluss der nichtmetallischen Clusterspezies auf die magnetischen Eigenschaften wurde anhand der Carbid-Clusterfullerene Dy2TiC@C80-Ih, -D5h und Dy2TiC2@C80-Ih untersucht. Obwohl die Fullerene Dy2TiC@C80-Ih bzw. -D5h sich nur durch die isoelektronische Ti-C-Clustereinheit von den Nitrid-Clusterfullerenen unterscheiden, ist deren Remanenz nur halb so groß. Ein weiteres Kohlenstoffatom im Cluster, wie in Dy2TiC2@C80-Ih, ruft eine weitere Abnahme der Hysterese der Magnetisierung hervor. Die veränderte Bindungssituation der Carbid-Cluster wird als Ursache für das beobachtete magnetische Verhalten herangezogen. info:eu-repo/classification/ddc/540 ddc:540

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