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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Photoinduced Manipulation of the Molecular Assembly in Heteroleptic Titanium Metal Alkoxides for Use in Optical Devices

Schneider, Zachary January 2010 (has links)
The manipulation of molecular structures is an important enabling technology for future advances in nanotechnology. The ability to control the synthesis of nanostructured materials, such as the bond formation and geometry of a molecule is of great significance to nanoscience as nanosystems are constructed from these smaller units. Influencing the assembly of molecular structures at the early stages of material formation can modify the ensuing molecular aggregate structure with the potential for impact in a broad range of optical, chemical, and biological applications. Heteroleptic titanium metal alkoxides (OPy)₂Ti(4MP) ₂ and (OPy)₂Ti(TAP)₂, where OPy = OC₆H₆N, 4MP = OC₆H₄(SH)-4, and TAP = OC₆H₂(CH₂N(CH₃)₂)₃-2,4,6 were investigated as precursors for thin film and solution-based synthesis of oxide materials via the photoactivation of intermolecular reactions (e.g. hydrolysis/condensation) at selected ligand sites about the metal center. Manipulation of the molecular structure of these photosensitive metal alkoxides was achieved through the use of optical irradiation parameters, such as the tuning of the excitation wavelength, total optical fluence, and pulse energy intensity. Irradiating these metal alkoxides with UV-light was seen to cause photodisruption in the ligand groups leading to the formation of Ti-O-Ti linking via hydrolysis and condensation reactions. In spin-coated (OPy)₂Ti(TAP)₂ films, these photoinduced bridge bond formations resulted in an increase in refractive index and film densification as well as produced an insoluble film when rinsed in pyridine. By making use of these photoinduced film properties, the formation of physical relief structures from spin-coated (OPy)₂Ti(TAP)₂ films was demonstrated along with the ability to photopattern sub-micron and nanometer features. In addition, the micro- and nanostructure of thin films were optically manipulated through several deposition methods; a novel dip-coated in-situ photodeposition technique was utilized by illuminating at specific distances above the meniscus to further control the early stages of material formation due to changes in the mobility of the reactants from the evaporation and gravitational draining of the solvent. The ability to manipulate molecular development at the on-set of material formation through different deposition techniques and optical parameters allowed for the creation of several thin film optical devices, such as gratings, micro-optic lenslet arrays, and binary "on-off" patterned devices.
2

Comportement mécanique de films minces de chalcogénures sous irradiation de photons / Mechanical behaviour of chalcogenide thin films under photon irradiation

Specht, Marion 01 December 2017 (has links)
Ce travail est dédié à la compréhension de phénomènes photoinduits dansles verres de chalcogénure. Ces phénomènes, bien que connus depuis des années,ne sont pas encore bien compris. Travailler sur des couches minces, fabriquées icipar co-pulvérisation cathodique, ajoute une diffculté supplémentaire : il y a peude matière qui interagit avec la lumière et il faut composer avec la présence dusubstrat. Afin d'étudier les phénomènes photoinduits, il a été nécessaire d'adapterdes techniques expérimentales déjà existantes telles que la spectroscopie pompe-sonde, qui permet d'étudier la dynamique électronique ultra-rapide (inférieure à lananoseconde) et les capteurs au quartz piezoélectrique qui permettent de mesurerla masse volumique et les modules mécaniques du matériau déposé à leurs surface.Des essais préliminaires de résonance en transmission ont été également réalisés etsont prometteurs. Une machine de DMA (Dynamical Mechanical Analysis) a étéspécialement conçue au laboratoire afin de réaliser une étude dynamique des verres de chalcogénures sous formes de fibres et de films minces. Toutes ces techniquesexpérimentales permettent d'étudier les effets photoinduits à différentes échelles detemps et de mieux les expliquer. / This work aims to understand photoinduced phenomena in chalcogenide glasses. These phenomena are known for years but yet not fully understood. Studying thin films, deposited by co-sputtering here, adds an other difficulty : the light-matter interaction takes place in a small amount of matter and it is inevitable to deal with the substrate. To study these photoinduced effects, it was necessary to adapt some already existing methods such as pump-probe spectroscopy which measures ultrafast electronic dynamics (less than a nanosecond), piezoelectric quartz sensors which gives density and mechanical modulus of the materials deposited on. Preliminary tests were run to investigate optical transmission resonance and are promising. A DMA machine (Dynamical Mechanical Analysis) was especially designed in the laboratory to study the behaviour of fibers and films. All these experimental setups allow to study photoinduced phenomena at various timescale and to better understand them.

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