Name | Topic | Title |
---|---|---|
Alexandra Chamberlain | Biochemistry / Chem Bio. | Kinetic analysis of a minimal RNA substrate as a tool for identification of inhibitors of bacterial Ribonuclease P; an emerging antibiotic target |
Mr. Arka Prabha Ray | Physical Chemistry | Dual mechanisms of cholesterol-GPCR interactions that depend on membrane phospholipid composition |
Dr. Thanh Nguyen | Physical Chemistry | High Accuracy Reaction Rate Coefficients from First Principles |
Prof. Peng Jiang | PMSE/POLY | Reconfigurable Nanooptics and Smart Chromogenic Sensors Enabled by Multi-Stimuli-Responsive Shape Memory Polymers |
Miss Amanda Ritz | Analytical Chemistry | In-situ electrochemical transformations of high-performance iron-nickel nanocarbide electrocatalysts for the oxygen evolution reaction |
Noel Manring | Analytical Chemistry | Double-bore carbon fiber microelectrodes for the simultaneous detection of heavy metals and neurotransmitters via fast scan cyclic voltammetry |
Ms. Emma Mulry | Physical Chemistry | Probing Site Specific Protein PEGylation to Improve Therapeutic Potential |
Mr. Mario Chang | Physical Chemistry | Real Time Deuterium Metabolic Imaging of Mouse Brain Metabolism by the Two-Point Dixon Method |
Dr. Chenjie Zeng | Inorganic Chemistry | Binary Semiconductor Nanoclusters: from Magic Sizes to Atomic Precision |
Mr. Muzammil Ahmed | Analytical Chemistry | A Novel Single Ionophore Single Electrolyte Configuration for Simultaneous Detection of Multiple Metal Ions via ITIES |
Prof. Shyam Kattel | Computational Chemistry | Computations Guided Catalysts Design |
Prof. Konstantin Bukhryakov | Inorganic Chemistry | Vanadium Alkylidenes for Olefin Metathesis |
Ms. Anna Rushin | Physical Chemistry | Applying Dynamic Nuclear Polarization to Measure Pancreatic Metabolism using Hyperpolarized [1-13C]Pyruvate |
Prof. Michael Therien | Physical Chemistry | Fundamental Excitations in Highly Conjugated Supermolecules and Nanoscale Structures |
Prof. Zhongwu Guo | Organic Chemistry | Diversity-Oriented Synthesis and MS-Based Characterization of Glycosphingolipids |
Name | Topic | Title |