1. CUSTOM ANGSTROM-SCALE SEPARATIONS WITH HIGHLY PERMEABLE BIOMIMETIC MEMBRANES Open Access Author: Prabhakar, Jeevan Title: CUSTOM ANGSTROM-SCALE SEPARATIONS WITH HIGHLY PERMEABLE BIOMIMETIC MEMBRANES Area of Honors: Chemical Engineering Keywords: OmpFMembranesBiomimeticDesalinationSeparationsPoreDesignerMutantFiltrationGeneticAquaporinTEMAngstromE. coliPurificationProteoliposome File: Download Thesis_Jeevan_Prabhakar.pdf Thesis Supervisors: Dr. Manish Kumar, Thesis SupervisorDarrell Velegol, Thesis Honors Advisor
2. PURIFICATION OF VARIOUS OMPF MUTANTS FOR USE IN THE PRODUCTION OF BIOMIMETIC MEMBRANES Open Access Author: Becker, Matthew Louis Title: PURIFICATION OF VARIOUS OMPF MUTANTS FOR USE IN THE PRODUCTION OF BIOMIMETIC MEMBRANES Area of Honors: Chemical Engineering Keywords: OmpFBiomimeticMembranesBiomimetic membranesFiltration File: Download THESIS_FINAL.pdf Thesis Supervisors: Dr. Manish Kumar, Thesis SupervisorAli Borhan, Thesis Honors Advisor
3. SURFACE MODIFICATION OF REVERSE OSMOSIS MEMBRANES (RO) TO ELIMINATE FOULING, CONCENTRATION POLARIZATION, AND REDUCE ATRAZINE IN WATER Open Access Author: Sharma, Siddharth A Title: SURFACE MODIFICATION OF REVERSE OSMOSIS MEMBRANES (RO) TO ELIMINATE FOULING, CONCENTRATION POLARIZATION, AND REDUCE ATRAZINE IN WATER Area of Honors: Chemical Engineering Keywords: Reverse OsmosisMembranesSeparationsWater PurificationDesalination File: Download final_thesis_schreyer__4.8.19_-merged.pdf Thesis Supervisors: Harry R Allcock, Thesis SupervisorAli Borhan, Thesis Honors Advisor
4. Catalyzed Degradation of Hydrogen Peroxide: A Review of Water Treatment Membrane Fouling, Concentration Polarization, and Proposed Solutions Open Access Author: Sommer, Christopher Title: Catalyzed Degradation of Hydrogen Peroxide: A Review of Water Treatment Membrane Fouling, Concentration Polarization, and Proposed Solutions Area of Honors: Chemical Engineering Keywords: Water TreatmentMembranesFoulingConcentration PolarizationCatalaseNanoparticles File: Download Chris_Sommer_s_Thesis.pdf Thesis Supervisors: Dr. Manish Kumar, Thesis SupervisorScott Thomas Milner, Thesis Honors Advisor
5. Understanding Design Principles in Weakly Charged Polyacrylic Acid-Based Polymer Membranes at Varying External pH Restricted (Penn State Only) Author: Szymanski, Jack Title: Understanding Design Principles in Weakly Charged Polyacrylic Acid-Based Polymer Membranes at Varying External pH Area of Honors: Chemical Engineering Keywords: Ion TransportWater TransportPolymersWater UptakeMembranesSustainabilitySeparationDecarbonizationEnergyEnvironmentHealth File: Login to Download Thesis Supervisors: Hee Jeung Oh, Thesis SupervisorDarrell Velegol, Thesis Honors Advisor