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Mobility Of Nano-Particles In Rock Based Micro-Models, Jagannath Upadhyay
Mobility Of Nano-Particles In Rock Based Micro-Models, Jagannath Upadhyay
LSU Doctoral Dissertations
A confocal micro-particle image velocimetry (C-μPIV) technique along with associated post-processing algorithms is detailed for obtaining three dimensional distributions of nano-particle velocity and concentrations at select locations of the 2.5D (pseudo 3D) Poly(methyl methacrylate) (PMMA) and ceramic micro-model. The designed and fabricated 2.5D micro-model incorporates microchannel networks with 3D wall structures with one at observation wall which resembles fourteen morphological and flow parameters to those of fully 3D actual reservoir rock (Boise Sandstone) at resolutions of 5 and 10 μm in depth and 5 and 25 μm on plane. In addition, an in-situ, non-destructive method for measuring the geometry of …
Higher Energy Gap Control Of Fluorescence In Conjugated Polymers, Chien-Hung Chiang
Higher Energy Gap Control Of Fluorescence In Conjugated Polymers, Chien-Hung Chiang
LSU Doctoral Dissertations
Chemo- and biosensors based on fluorescent conjugated polymer benefit from greater detection sensitivity due to amplification of the electronic perturbations produced by analyte binding. This amplification stems from the exciton-transporting properties of conjugated polymers. A conventional design paradigm relies on the analyte binding events which generate sites of lower energy relative to the polymer energy: either fluorescence quenching sites (turn-off sensors) or bathochromically shifted fluorophores (turn-on sensors). In both type sensors, the excitons migrate to the lower-energy site created by analyte binding.
This dissertation primarily focused the investigation of an alternative paradigm when analyte binding creates higher energy gap sites …