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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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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.
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Shapeable microelectronicsKarnaushenko, Daniil 08 June 2016 (has links)
This thesis addresses the development of materials, technologies and circuits applied for the fabrication of a new class of microelectronic devices that are relying on a three-dimensional shape variation namely shapeable microelectronics. Shapeable microelectronics has a far-reachable future in foreseeable applications that are dealing with arbitrarily shaped geometries, revolutionizing the field of neuronal implants and interfaces, mechanical prosthetics and regenerative medicine in general. Shapeable microelectronics can deterministically interface and stimulate delicate biological tissue mechanically or electrically. Applied in flexible and printable devices shapeable microelectronics can provide novel functionalities with unmatched mechanical and electrical performance. For the purpose of shapeable microelectronics, novel materials based on metallic multilayers, photopatternable organic and metal-organic polymers were synthesized.
Achieved polymeric platform, being mechanically adaptable, provides possibility of a gentle automatic attachment and subsequent release of active micro-scale devices. Equipped with integrated electronic the platform provides an interface to the neural tissue, confining neural fibers and, if necessary, guiding the regeneration of the tissue with a minimal impact. The self-assembly capability of the platform enables the high yield manufacture of three-dimensionally shaped devices that are relying on geometry/stress dependent physical effects that are evolving in magnetic materials including magentostriction and shape anisotropy. Developed arrays of giant magnetoimpedance sensors and cuff implants provide a possibility to address physiological processes locally or distantly via magnetic and electric fields that are generated deep inside the organism, providing unique real time health monitoring capabilities. Fabricated on a large scale shapeable magnetosensory systems and nanostructured materials demonstrate outstanding mechanical and electrical performance. The novel, shapeable form of electronics can revolutionize the field of mechanical prosthetics, wearable devices, medical aids and commercial devices by adding novel sensory functionalities, increasing their capabilities, reducing size and power consumption.
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Multifunctional Droplet-based Micro-magnetofluidic DevicesLin, Gungun 16 August 2016 (has links)
Confronted with the global demographic changes and the increasing pressure on modern healthcare system, there has been a surge of developing new technology platforms in the past decades. Droplet microfluidics is a prominent example of such technology platforms, which offers an efficient format for massively parallelized screening of a large number of samples and holds great promise to boost the throughput and reduce the costs of modern biomedical activities. Despite recent achievements, the realization of a compact and generic screening system which is suited for resource-limited settings and point-of-care applications remains elusive.
To address the above challenges, the dissertation focuses on the development of a compact multifunctional droplet micro-magnetofluidic system by exploring the advantages of magnetic in-flow detection principles. The methodologies behind a novel technique for biomedical applications, namely, magnetic in-flow cytometry have been put forth, which encompass magnetic indexing schemes, quantitative multiparametric analytics and magnetically-activated sorting. A magnetic indexing scheme is introduced and intrinsic to the magnetofluidic system. Two parameters characteristic of the magnetic signal when detecting magnetically functionalized objects, i.e. signal amplitude and peak width, providing information which is necessary to perform quantitative analysis in the spirit of optical cytometry has been proposed and realized. Magnetically-activated sorting is demonstrated to actively select individual droplets or to purify a population of droplets of interest. Together with the magnetic indexing scheme and multiparametric analytic technique, this functionality synergistically enables controlled synthesis, quality administration and screening of encoded magnetic microcarriers, which is crucial for the practical realization of magnetic suspension arrays technologies. Furthermore, to satisfy the needs of cost-efficient fabrication and high-volume delivery, an approach to fabricate magnetofluidic devices on flexible foils is demonstrated. The resultant device retains high performance of its rigid counterpart and exhibits excellent mechanical properties, which promises long-term stability in practical applications.
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Courants de spin et l'effet Hall de spin dans des nanostructures latérales / Spin currents and spin Hall effect in lateral nano-structuresLaczkowski, Piotr 05 October 2012 (has links)
Cette thèse porte sur l’étude des courants de spin et de l’effet Hall de spin dans des nanostructureslatérales. Des vannes de spin latérales Py/Al, Py/Cu et Py/Au, ont été fabriquées parlithographie électronique, puis optimisées et caractérisées par des mesures de magnéto-transport.Des mesures non locales, de GMR, et d’effet Hanle ont ainsi été enregistrées à 300K et 77K. De l’optimisation des vannes de spin latérales a découlé l’observation de fortes amplitudes designal de spin. De plus, les effets du confinement latéral et vertical de l‘accumulation de spin,par utilisation d’un canal non-magnétique confiné ou de barrières tunnel AlOx, ont été mis enévidence expérimentalement et décrits théoriquement. Des simulations par éléments finis et desanalyses basées sur les modèles de diffusion 1D ont été développées, permettant l’extraction de lapolarisation effective Peff et de la longueur de diffusion de spin lNsf des données expérimentales.Enfin, l’effet Hall de spin dans des matériaux à fort angles de Hall (Pt, aliage d’Au) a étéétudié dans des hétérostructures latérales et par pompage de spin à la résonance ferromagnétique. / This PhD thesis focus on the study of spin currents and of the spin Hall effect in lateralnano-structures. Lateral spin-valves based on Py/Al, Py/Cu and Py/Au, fabricated by meansof electron-beam lithography, have been optimized and characterized using magneto-resistancemeasurements. Non-local, GMR and Hanle effect measurements have been recorded at 300K and77K. The optimization of these lateral spin-valves allowed the observation of high spin signalamplitudes. Lateral and vertical confinement effects on the spin accumulation, by using confinednon-magnetic channel and AlOx tunnel barriers, were evidenced experimentally and describedtheoretically. Finite Elements Method simulations and analyses based on a 1D diffusion modelhave been developed, allowing the extraction from our experimental data of the effective spinpolarization Peff and of the spin diffusion length lNsf .Finally, the spin Hall effect of materials with high spin Hall angles (Pt, Au alloys) has beenstudied using both hybrid lateral nano-structures and spin pumping ferro-magnetic resonance.
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