The Williams group develops methods, instrumentation, and theory in mass spectrometry, separations, and spectroscopy, with the general goals of understanding the structure, reactivity, and function of biomolecules.
Latest Publications
- Bush, M. F.; Oomens, J.; Saykally, R. J.; Williams, E. R. Effects of Alkaline Earth Metal Ion Complexation on Amino Acid Zwitterion Stability: Results from Infrared Action Spectroscopy. Journal of the American Chemical Society 2008, DOI:10.1021/ja711343q web
- Donald, W. A.; Williams, E. R. Evaluation of Different Implementations of the Thomson Liquid Drop Model: Comparison to Monovalent and Divalent Cluster Ion Experimental Data. Journal of Physical Chemistry A 2008, 112, 3515-3522. web
- Donald, W. A.; Leib, R. D.; O'Brien, J. T.; Bush, M. F.; Williams, E. R. Absolute Standard Hydrogen Electrode Potential Measured by Reduction of Aqueous Nanodrops in the Gas Phase. Journal of the American Chemical Society 2008, 130, 3371-3381. web
- Bush, M. F.; Prell, J. S; Saykally, R. J.; Williams, E. R. One Water Molecule Stabilizes the Cationized Arginine Zwitterion. Journal of the American Chemical Society 2007, 129, 13544-13553. web
- Bush, M. F.; Saykally, R.J.; Williams, E. R. Hydration of the Calcium Dication: Direct Evidence for Second Shell Formation from Infrared Spectroscopy. ChemPhysChem 2007, 8, 2245 - 2253. web
Site created and maintained by Matthew F. Bush.