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Skip to Search Results- 2Wu, Nathanael Lap-Yan
- 1Achal, Roshan
- 1Alam, Kazi, MM
- 1Baillie, Devin MJ
- 1Buriak, Jillian M.
- 1Chung, Deborah K
- 29Graduate and Postdoctoral Studies (GPS), Faculty of
- 29Graduate and Postdoctoral Studies (GPS), Faculty of /Theses and Dissertations
- 1Chemistry, Department of
- 1Chemistry, Department of/Research Data and Materials (Chemistry)
- 1Oil Sands Research and Information Network (OSRIN)
- 1Oil Sands Research and Information Network (OSRIN)/OSRIN Technical Reports
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Development of an optical biosensor based on Mach-Zehnder Interferometry for detection of Listeria monocytogenes
DownloadFall 2013
Label-free optical biosensors are widely used for the detection of pathogens due to their low-cost, real-time detection and high sensitivity. A Mach-Zehnder Interferometer (MZI) based biosensor has been developed for the detection of gram-positive bacteria, Listeria monocytogenes. An extensive...
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Design and simulation of a short, 10 MV, variable energy linear accelerator for use in linac-MR systems
DownloadFall 2016
Hybrid linac-MR devices are currently being designed and constructed by several groups around the world which combine a linear accelerator with an MRI in order to enable real-time 3D imaging to visualize tumor movement during external beam radiotherapy treatments. Each of the current systems is...
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Fall 2023
Plasmonics deals with the collective excitations of light coupled with free electrons in matter. It has widespread use in the fields of biosensing and nanoscale waveguiding due to the enhancement of the electric fields. My thesis deals with an important frontier in the field of plasmonics by...
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DNA-assisted Heterogeneous Integration of Micro- and Nanoelectronic Devices: Modeling, Control, and Rational Design of Selective Attachment
DownloadSpring 2018
Heterogeneous integration is an electronic packaging approach that enables the fabrication and assembly of complete electronic subsystems from components fabricated with different substrates and processes. Current commercial techniques like robotic pick-and-place, fluidic self-assembly, and...
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Spring 2022
Molecular self-assembly is the basis of structure in Nature. While of far less complexity than a natural system, the same physical rules apply to simple synthetic designed systems that spontaneously form self-assembled structures and patterns. The self-assembly of block copolymers (BCPs) is an...
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Benign-by-Design: Synthesis of Engineered Silicon Nanoparticles and their Application to Oil Sands Water Contaminant Remediation
Download2013-11-29
Iqbal, M., Veinot, J.G.C., Purkait, T.K., Goss, G.G.
Oil sands are naturally occurring mixtures of sand or clay, water, fine silts, and bitumen. The oil sands extraction process consumes large volumes of water (i.e., ca. 3 barrels of fresh water for every 1 barrel of oil). Following the extraction of bitumen from the oil sands, a tailings slurry...
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Atomic Force Microscopy Characterization of Hydrogen Terminated Silicon (100) 2x1 Reconstruction
DownloadFall 2015
Non-contact Atomic Force Microscopy (NC-AFM) is a Scanning Probe Microscopy tool offering unique non-perturbative analysis of surfaces and adsorbates at the atomic scale. AFM precisely oscillates a sharp tip above a sample. By monitoring the shift in resonance frequency of a quartz tuning fork...
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Fall 2014
Rosette Nanotubes (RNTs) are a class of self-assembled organic nanomaterials generated through the spontaneous hierarchical organization of guanine-cytosine (G˄C) bases with a built-in self-assembling ability. Driven by non-covalent intermolecular forces in solution, G˄C bases self-assemble into...
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Aquatic nanotoxicity testing: Insights at the biochemical, cellular, and whole animal levels
DownloadFall 2013
Aquatic organisms are susceptible to waterborne nanoparticles and there is only limited understanding of the mechanisms by which these emerging contaminants affect biological processes. The unique properties of nanomaterials necessitate evaluation of standard toxicity testing techniques to...
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Fall 2015
2015 marks the 50th anniversary of Moore's law, which has described the exponential progress in semiconductor patterning technologies, enabling creation of smaller circuitry features at greater densities. These continued hardware developments, economically mass manufactured, have made possible...