1. Multicomponent catalysis: Interfacial properties directing furfuryl alcohol hydrodeoxygenation pathways at doped TiO2-Pd core shell catalysts Open Access Author: Weikel, Kelly Title: Multicomponent catalysis: Interfacial properties directing furfuryl alcohol hydrodeoxygenation pathways at doped TiO2-Pd core shell catalysts Area of Honors: Chemical Engineering Keywords: catalysishydrodeoxygenationbiomassfurfuryl alcoholDensity Functional Theoryvacancies File: Download Kelly_Weikel_thesis.pdf Thesis Supervisors: Michael John Janik, Thesis SupervisorMichael John Janik, Thesis Honors AdvisorRobert Rioux, Faculty Reader
2. The Effects of MRTF-A Phosphorylation State on TGFβ1-induced Epithelial-to-Mesenchymal Transition Open Access Author: Phan, Steven Title: The Effects of MRTF-A Phosphorylation State on TGFβ1-induced Epithelial-to-Mesenchymal Transition Area of Honors: Chemical Engineering Keywords: MRTF-AEMTEpithelial-Mesenchymal TransitionTGFβ1Erk File: Download Phan__Steven_-_Thesis.pdf Thesis Supervisors: Esther Gomez, Thesis SupervisorMichael John Janik, Thesis Honors Advisor
3. Analysis of Flux and Pressure Behavior during Single Pass Tangential Flow Filtration of Monoclonal Antibody Solutions Open Access Author: Lipinski, Ann Marie Title: Analysis of Flux and Pressure Behavior during Single Pass Tangential Flow Filtration of Monoclonal Antibody Solutions Area of Honors: Chemical Engineering Keywords: single pass tangential flow filtrationcontinuous processingmonoclonal antibodiesultrafiltration File: Download Ann_Lipinski_Honors_Thesis.pdf Thesis Supervisors: Andrew Zydney, Thesis SupervisorMichael John Janik, Thesis Honors Advisor
4. Development of an Analytic Method to Determine Algae Potential as Industrial Feedstocks for Biofuel Production Open Access Author: Patel, Hinkal Title: Development of an Analytic Method to Determine Algae Potential as Industrial Feedstocks for Biofuel Production Area of Honors: Chemical Engineering Keywords: algaehydrocarbonsproductivitybiofuelsdigitizationBotryococcus File: Download Patel_Hinkal_Development_of_an_Analysis_Method_to_Determine_Algae_Potential_as_Industrial_Feedstocks_for_Biofuel_Production.pdf Thesis Supervisors: Wayne Roger Curtis, Thesis SupervisorMichael John Janik, Thesis Honors Advisor
