Spectroscopy and Single Molecules
ASU students use the highest resolution spectroscopies, single-molecule fluorescence, scanning probe techniques and high-field NMR to describe and understand fundamental electronic structure, complex materials, the dynamics of biochemical environments and to analyze, sequence and sort complex biopolymers.
Novel fluorescent probes, single cell genomics and proteomics, cancer biology, neuroscience
Biophysical chemistry, photophysics, single-molecule fluorescence, DNA-protein dynamics
Scanning probe microscopy, molecular electronics, molecular biophysics, nano-scale self-assembly
Bacterial dynamics Single molecule Spectroscopy and Imaging analysis Stochastic processes Bayesian inference
Dynamics of Liquids, Glass Transition, Dynamic Heterogeneity, Confinement Effects
Ultrafast Lasers, Electron Dynamics, XUV Spectroscopy, Molecular Clusters
Microbe-Nanostructure Interactions, Biogenic Nanomaterials, Amorphous Nanomaterials, Materials Crystal Structure and Catalysis, Anoxygenic Photosynthesis, Sulfur Bacteria, Sulfate-Reducing Bacteria, Biogeochemistry, and Astrobiology