Global ETD Search

331	High Purity Magnesium Coatings and Single Crystals for Biomedical Applications Salunke, Pravahan Shamkant January 2017 (has links) No description available. Materials Science magnesium single crystal bridgman method physical vapor deposition biomedical implants ductility etching
332	Development of Porous Nickel Electro-Catalysts for Photo-Water Splitting Using Zn, Co, Mn and NH4+ Based Precursors Bidurukontham, Aditya V. January 2011 (has links) No description available. Chemical Engineering Materials Science Porous Ni Electrocatalysts Photo-water Splitting Hydrogen production Etching of precursors
333	HYBRID X-BAND POWER AMPLIFIER DEVELOPMENT FOR 3D-IC PHASED ARRAY MODULE XU, PENG 17 April 2003 (has links) No description available. wet bulk silicon etching PI2611 polyimide multilayer process MMIC circuit wire bonding on water microwave measurement
334	Photonic Devices Fabricated with Photonic Area Lithographically Mapped Process Zhou, Yaling 21 April 2009 (has links) No description available. Electrical Engineering Engineering Optics Photonic PhCs Photonic Crystals waveguides lithography gratings Etching
335	Design And Fabrication Of Microfluidic Devices For Electrokinetic Studies Jung, Hyun Chul 08 September 2008 (has links) No description available. Electrical Engineering Microfludic Devices ICP-RIE Etching Pyrex glass Wafer Bonds Electrokinetic studies COMSOL
336	Poly(dimethylsiloxane) Based Micro- and Nanofluidic Device Fabrication for Electrophoresis Applications Pussadee, Nirut 04 November 2010 (has links) No description available. Biophysics Materials Science Polymers PDMS microfluidics nanofluidics nanochannels sacrificial layer lithography plasma etching
337	Smart Materials for Electromagnetic and Optical Applications Ramesh, Prashanth 28 August 2012 (has links) No description available. Electrical Engineering Mechanical Engineering Technology MEMS piezoelectrics ferroelectrics gallium nitride photoelectrochemical etching optical microswitch bimorph
338	Functionalized Single Walled Carbon Nanotube/Polymer Nanocomposite Membranes for Gas Separation and Desalination Surapathi, Anil Kumar 16 November 2012 (has links) Polymeric membranes for gas separation are limited in their performance by a trade-off between permeability and selectivity. New methods of design are necessary in making membranes, which can show both high permeability and selectivity. A mixed matrix membrane is one such particular design, which brings in the superior gas separation performance of inorganic membranes together with the easy processability and price of the polymers. In a mixed matrix membrane, the inorganic phase is dispersed in the polymeric continuous phase. Nanocomposite membranes have a more sophisticated design with a thin separation layer on top of a porous support. The objective of this research was to fabricate thin SWNT nanocomposite membranes for gas separation, which have both high permeability and selectivity. SWNT/polyacrylic nanocomposite membranes were fabricated by orienting the SWNTs by high vacuum filtration. The orientation of SWNTs on top of the porous support was sealed by UV polymerization. For making these membranes, the CNTs were purified and cut into small open tubes simultaneously functionalizing them with COOH groups. Gas sorption of CO2 in COOH functionalized SWNTs was lower than in purified SWNTs. Permeabilities in etched membrane were higher than Knudsen permeabilities by a factor of 8, and selectivities were similar to Knudsen selectivities. In order to increase the selectivities, SWNTs were functionalized with zwitterionic functional groups. Gas sorption in zwitterion functionalized SWNTs was very low compared to in COOH functionalized SWNTs. This result showed that the zwitterionic functional groups are kinetically blocking the gas molecules from entering the pore of the CNT. SWNT/polyamide nanocomposite membranes were fabricated using the zwitterion functionalized SWNTs by interfacial polymerization. The thickness of the separation layer was around 500nm. Gas permeabilities in the CNT membranes increased with increasing weight percentage of the SWNTs. Gas permeabilities were higher in COOH SWNT membrane than in zwitterion SWNT membrane. Gas selectivities were similar to the Knudsen selectivities, and also to the intrinsic selectivities in the pure polyamide membrane. The water flux in SWNT-polyamide membranes increased with increasing weight percentage of zwitterion functionalized SWNTs, along with a slight increase in the salt rejection. Membranes exhibited less than 1% variability in its performance over three days. / Ph. D. Plasma Etching Functionalization Gas Permeation Gas Adsorption Desalination Carbon Nanotube Poly(acrylates) Polyamide Nanocomposite membrane
339	Optical Fiber Microstructures for Self-Contained Whispering Gallery Mode Excitation Fraser, Michael John 02 May 2016 (has links) Optical resonators, which confine light by resonant recirculation, serve as the basis for a wide variety of optical components. Though they appear in many geometric forms, the most effective of optical resonators show axial symmetry in at least one dimension. A popular variation that finds broad application is the dielectric sphere. Acclaimed for their high quality (Q) factor and small modal volume, spheres owe credit of these attractive features to their support of whispering gallery mode (WGM) resonances. The sensitivity of a resonance's frequency and Q to strain, temperature, and other parameters of the surrounding medium can be the basis for ultracompact modulators and sensors. Physically, WGMs are special optical modes which can be understood as light rays that orbit the equator of the sphere guided by total internal reflection. Like a smooth stone can be skipped along the surface of a pond, light can be confined to the inside of a sphere by successive reflections. To best excite WGMs, the source light should initially trace a line tangent to the sphere's circumference. But incorporating a tiny sphere with such nanometric tolerances into a practical sensor structure has its challenges and the prospects for microsphere applications have suffered because of the plight of this problem. The work in this dissertation details the fabrication and function of three new "press fit" spherical resonators. These etched fiber micro-devices were developed to meet the demand for a robust, self-integrated means of coupling light between an optical fiber and WGMs in a microsphere resonator. The etching processes have been tuned to enable secure storage of a microsphere while also providing efficient excitation and interrogation of WGMs. Furthermore, the methods have been designed to be staightforward, quick, and repeatable. Using standard etchants on common polarization-maintaining fiber with readily purchased microspheres, the press fit resonators demonstrated here can be batch-fabricated and assembled. The press fit spherical resonator offers an alignment-free and conveniently pigtailed WGM coupler that has great potential for bio-science sensing applications and studies of resonant bispheres. / Ph. D. Resonators Whispering Gallery Modes Fiber Optics Sensors Micro-devices Micro-fabrication Wet Chemical Etching
340	Low Modal Volume Single Crystal Sapphire Optical Fiber Hill, William Cary 10 March 2016 (has links) This research provides the first known procedure for cleanly and consistently reducing the diameter of single-crystal sapphire optical fiber (SCSF) below the limits of standard production methods, including the first production of subwavelength-diameter optical fiber (SDF) composed of single-crystal sapphire. The first known demonstration of an air-clad single crystal sapphire optical fiber demonstrating single-mode behavior is also presented, and the single-mode cutoff wavelength and diameter are determined. Theoretical models describing and predicting the optical behavior of low modal volume sapphire optical fibers are also presented. These models are built upon standard weakly-guiding optical fiber theory, which is found to be accurate once experimentally-determined properties of the SCSF are substituted for theoretical values. Reduced modal dispersion is also observed in the form of decreased laser pulse broadening in reduced-diameter SCSF. The improvements in spatial resolution for distributed sensing systems such as Raman distributed temperature sensing are also predicted based on the measured decrease in pulse duration. This research also provides an enhanced understanding of the etching behavior of sulfuric and phosphoric acids on sapphire surfaces, including the first reporting of etching rates and activation energies for a-plane sapphire surfaces. Morphological changes of sulfuric and phosphoric acids at and beyond the temperature ranges used in etching were also tested and discussed in detail, especially regarding their practical impact on observed etching behavior. The demonstration of LMV single-crystal sapphire optical fibers enables the adaptation of numerous sensing schemes requiring low modal volume or single-mode behavior to be utilized in extreme environments. / Ph. D. Sapphire single mode modal volume optical sensor optical fiber single crystal etching

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