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- All Subjects: Rheology
- Creators: Green, Matthew
- Status: Published
First, a logical categorization of potential adsorptive separation mechanisms in MOFs is outlined by comparing existing data with previously studied materials. Size-selective adsorptive separation is investigated for both gas systems using molecular simulations. A correlation between size-selective equilibrium adsorptive separation capabilities and pore diameter is established in materials with complex pore distributions. A method of generating mobile extra-framework cations which drastically increase adsorptive selectivity toward nitrogen over oxygen via electrostatic interactions is explored through experiments and simulations. Finally, deposition of redox-active ferrocene molecules into systematically generated defects is shown to be an effective method of increasing selectivity towards oxygen.
This honors thesis covers an overview of the the motivation, objectives, and projects of the Xie Research Group, focusing on the mechanical effect of dopants (through p-doping) on the structural domains of conjugated polymers (specifically P3DT). The ability to sustainably 3D-print conjugated polymers has the potential to impact a variety of industries (personalized technology, medical treatment, replacement of metals, etc).
This honors thesis covers an overview of the the motivation, objectives, and projects of the Xie Research Group, focusing on the mechanical effect of dopants (through p-doping) on the structural domains of conjugated polymers (specifically P3DT). The ability to sustainably 3D-print conjugated polymers has the potential to impact a variety of industries (personalized technology, medical treatment, replacement of metals, etc).
We utilized biomaterial scaffolds created from an electrospinning apparatus to create fibrous scaffolds with controllable morphology. To create consistent stable fibers, norbornene-modified cellulose acetate (nor-CA) was used as the polymer in solvent solutions of trifluoroacetic acid (TFA) and acetone/N,N-dimethylacetamide (DMAc). Solution rheology was used to determine a baseline for the nor-CA concentration used within each solvent system for electrospinning. The fibrous scaffolds were analyzed for morphology and fiber size using scanning electron microscopy. Increased fiber stability and decreased beading was found with higher concentrations of nor-CA for each solvent system. TFA appeared to be the most versatile as it was able to form fibers without beads at concentrations of 15%, 18%, and 21% nor-CA, with the most stable and uniform fibers at 21% nor-CA. This solvent had a conductivity measurement of 0.98 mS. DMAc/acetone had a much higher conductivity measurement and increased beading at lower concentrations of nor-CA.