Midstream Presentation: Carter Lantz
Carter Lantz Loo Group “Mass Spectrometry Analysis of Amyloid Proteins and their Interaction with the Aggregation Inhibiting Compound CLR01”
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Chem 278: Prof. Caroline Saouma
“Thermodynamic and Mechanistic Studies of C02Reduction Catalysts” Abstract: The increase in global energy demands, coupled with growing environmental concerns, necessitates the development of viable technologies to store solar energy. Towards […]
Writing the rules for targeting dynamic proteins
Abstract: Transcriptional coactivators and their partner transcription factors have been labeled as intrinsically disordered, fuzzy, and undruggable. We propose that the identification of conserved mechanisms of engagement between coactivators and their […]
Chem 228: Prof. Brandi Cossairt
“Interfacial Chemistry of Colloidal Nanocrystals to Direct Energy Conversion”
Interfacial Chemistry of Colloidal Nanocrystals to Direct Energy Conversion: Prof. Brandi Cossairt, University of Washington
Interfacial Chemistry of Colloidal Nanocrystals to Direct Energy Conversion We are interested in developing colloidal nanocrystals for wide-ranging applications in energy interconversion. Our approach leverages the extraordinary properties of nanoscale […]
Midstream Presentation: Maria Flores and Logan Scott Richards
Maria Flores Rodriguez Group “Investigating the atomic structures of prion-like assemblies formed by CPEB3” and Logan Scott Richards Rodriguez Group "Structural Characterization of LECT2 Systemic Amyloidosis”
Chem 228: Prof. Amber Krummel
"Exploiting Molecular Vibrations to Visualize Chemical Structures & Dynamics in Advanced Materials"
Midstream Presentation: Troy Lucas Lowe
Troy Lucas Lowe S. Clarke Group “Responses of a Protein Arginine Methyltransferase (PRMT7) to Intracellular Stress”
Chem 278: Dr. Evan Doud
“Beyond Traditional Superatom Ligands and Cores” Abstract: As technological development continues to advance at a rapid pace, there is an increasing need for next-generation materials. There are several fundamental challenges […]
Chem 218: First Principles Many-Body Theory and Quantum Dynamics for Materials Prediction – Prof. Yuan Ping, UCSC
First Principles Many-Body Theory and Quantum Dynamics for Materials Prediction Materials prediction is the ultimate solution for ending blind experimental search within an expansive material parameter space. First-principles theory entirely […]
Lessons from molecular evolution: from origin of life to phage-based nanomaterials
Abstract: Molecular evolution is a walk over a fitness landscape, in which populations explore sequence space through mutation and ‘climb’ up fitness peaks. The topography of the fitness landscape governs […]