1. Quick optmaven: an efficient computational framework for the de novo design of fully human monoclonal antibodies Open Access Author: Allan, Matthew Frederick Title: Quick optmaven: an efficient computational framework for the de novo design of fully human monoclonal antibodies Area of Honors: Chemical Engineering Keywords: monoclonal antibodymAbmAbsprotein designantibody designprotein engineeringantibody engineeringantibody developmentimmunologycomputational biologybioinformaticsIPROOptMAVEnOptCDRpharmaceuticalsbiologics File: Download Allan_Honors_Thesis.pdf Thesis Supervisors: Costas D Maranas, Thesis SupervisorAndrew Zydney, Thesis Honors Advisor
2. EFFECT OF SURFACTANT CONCENTRATION ON ALUMINA NANOPARTICLE-NICKEL-IRON COMPOSITES Open Access Author: Reinert, Owen Tanner Title: EFFECT OF SURFACTANT CONCENTRATION ON ALUMINA NANOPARTICLE-NICKEL-IRON COMPOSITES Area of Honors: Chemical Engineering Keywords: nanoparticleelectrodepositionEISelectrochemical frequency modulationelectochemical impedance spectroscopyEFMsurfactantdispersionironnickelaluminalinear polarization resistancescanning electron microscopyenergy dispersive X-ray spectroscopygalvanodynamic scanningpassivationcatalystscorrosionalloyssurfactant concentrationEEC-1659653REUNSF File: Download Thesis_Final_Document.pdf Thesis Supervisors: Dr. Manish Kumar, Thesis SupervisorAndrew Zydney, Thesis Honors Advisor
3. FLUX-DEPENDENT TRANSMISSION OF RNA THROUGH ULTRAFILTRATION MEMBRANES Open Access Author: Berman, Scott W Title: FLUX-DEPENDENT TRANSMISSION OF RNA THROUGH ULTRAFILTRATION MEMBRANES Area of Honors: Chemical Engineering Keywords: ultrafiltrationRNAmembranetransmissionRNA ultrafiltrationBiomaxDuraporeconcentration polarization File: Download Berman_Thesis.pdf Thesis Supervisors: Andrew Zydney, Thesis SupervisorDr. Michael John Janik, Thesis Honors Advisor
4. Effects of Solution Concentration and Ionic Strength on the Ultrafiltration Behavior of Bacterial Polysaccharides in Varying Pore Size Membranes Open Access Author: Ledingham, Jessica Leigh Title: Effects of Solution Concentration and Ionic Strength on the Ultrafiltration Behavior of Bacterial Polysaccharides in Varying Pore Size Membranes Area of Honors: Chemical Engineering Keywords: bacterial polysaccharidesultrafiltrationvaccines File: Download Ledingham_Jessica_ChEThesis.pdf Thesis Supervisors: Andrew Zydney, Thesis SupervisorScott Thomas Milner, Thesis Honors Advisor