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Full-Text Articles in Chemical Engineering
Methods For Film Coating Electrospun Fibers, Kristopher Dejean
Methods For Film Coating Electrospun Fibers, Kristopher Dejean
Williams Honors College, Honors Research Projects
Electrospinning uses high voltages to form polymer nanofiber membranes. These membranes have potential for use in filtration, tissue engineering, drug delivery, and catalysis. The nonwoven fiber mat is malleable but has a low tensile strength compared to a solid film of the same polymer. Joining the fibers with a thin film is desired to balance the strength and flexibility. Three methods of producing a film on fiber membrane were tested. The techniques are spraying then melting, spin coating, and dip coating. Electrospinning setup conditions, solvent ratios, damage to fibers, and spin coating speeds were determined. Research was abruptly stopped and …
Stability And Retention Enhancement Of Low Fouling Polystyrene Sulfonic Acid (Pss) And Polyethylene Glycol (Peg) Blend Films With Silane Coupling Agents, Sean Stybel
Williams Honors College, Honors Research Projects
The goal of this research project was to apply silane coupling agents for enhanced stability and retention of a low fouling polymeric coating to an inorganic substrate. A blend of polystyrene sulfonic acid (PSS) and polyethylene glycol (PEG) was crosslinked in order to create a low fouling film. The film was prepared by spin coating a PSS-PEG solution on an inorganic substrate coated with a layer of a silane coupling agent (3-aminopropyltriethoxysilane, APTES, solution), followed by thermal curing. The research was limited to less than one year and only used lab equipment available at the University of Akron. Stability and …
Developing A Colorimetric Membrane Sensor To Detect Trihalomethanes In Water Samples Utilizing The Fujiwara Reaction, Max D. Duckworth
Developing A Colorimetric Membrane Sensor To Detect Trihalomethanes In Water Samples Utilizing The Fujiwara Reaction, Max D. Duckworth
Williams Honors College, Honors Research Projects
This work focused on creating a colorimetric sensor to detect trihalomethanes (THMs) at concentrations near the level of environmental regulations from the environmental protection agency (EPA). This work utlized the fujiwara reaction as well as a hydrophobic electrospun polyprolylene membrane to produce a sensitive colorimetric reaction. A calibration curve was produced which was able to predict the concentration of a bromoroform solution in the range of 8-250 ppb with a confidence of 97.7 % using the intensity of the color change as a quantitative measure.