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Quantification of cell attachment on different materials as candidate electrodes for measurement of quantal exocytosis
(University of Missouri--Columbia, 2008)
A high throughput lab-on-a-chip device is being developed for single cell capture for the purpose of high time resolution quantal exocytosis measurement with high probability of cell docking. This device makes use of DLC ...
Deposition and characterization of high permittivity thin-film dielectrics
(University of Missouri--Columbia, 2006)
As integrated circuit (IC) devices scale to ever smaller nodes, replacing the front end dielectric has become a primary challenge. To enable greater device densities, control power consumption, and enhance performance, a ...
Development of a human immunodeficiency virus (HIV-1) biosensor utilizing liquid core waveguides
(University of Missouri--Columbia, 2007)
[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT REQUEST OF AUTHOR.] Millions of individuals are diagnosed each year with Human Immunodeficiency Virus Type 1. Each day more individuals are receiving antiretroviral ...
Microfabricated devices for single cell analysis
(University of Missouri--Columbia, 2006)
BioMEMS or lab-on-a-chip technology is promising technology and enables the possibility of microchip devices with higher throughput or better performance for single cell analysis. This technology is developed from the ...
Molecularly imprinted polymer labeled with quantum dots for detection of nitroaromatic explosives
(University of Missouri--Columbia, 2010)
A sensing device for explosive compounds is a fundamental step towards the capability to detect the presence of landmines, improvised explosive devices (IEDs), and other unexploded ordinance. To detect high explosive ...
Fabrication and characterization of polymer based metal-oxide-semiconductor and non-volatile memory devices
(University of Missouri--Columbia, 2009)
Organic field-effect transistors (FETs) have been widely investigated due to their potential applications in low cost, large area, and flexible electronics. Despite the rapid progress in organic FETs there are still obstacles ...
A novel PCR based DNA microanalyzer system for detection of viral genome
(University of Missouri--Columbia, 2006)
A micro-fluidic assay to quickly analyze microscopic samples of DNA is being developed for field applications. It consists of a micro-PCR chamber, micropumps, and micro-heaters. Additional components of the device include ...
Mesoporous iron oxide energetic composites with slow burn rate, sustained pressure and reduced ESD sensitivity for propellant applications
(University of Missouri--Columbia, 2006)
The objective of this thesis is to synthesize a slow burning nanoenergetic formulation of mesoporous iron oxide with sustainable pressure characteristics and reduced electrostatic discharge ignition sensitivity. The choice ...
Development of a fluorescence-based protease biosensor using nanoscale platforms
(University of Missouri--Columbia, 2010)
The development of a protease biosensor utilizing nanomaterials is presented in this dissertation. Peptide substrates and nanomaterial platforms were investigated to increase the sensitivity and response time for the ...
Investigation of nanoenergetic combustion study of aluminum nanoparticles systems on plasmonic grating platform
(University of Missouri--Columbia, 2022)
With renewed interest in energetic materials like aluminum, many fundamental issues concerning the ignition and combustion characteristics at nanoscales remain to be clarified. Aluminum nanoparticles (Al NP) are widely ...