W. Casey
2006
Citations
5
Influential Citations
329
Citations
Quality indicators
Journal
Chemical reviews
Abstract
One of the first subjects introduced to students of environmental chemistry is the aqueous chemistry of aluminum. This metal is the third most abundant element in the shallow Earth, where it hydrolyzes in water to produce a rich array of solute molecules and solids, including clays and aluminum hydroxide phases. Although these materials are ubiquitous, we are just beginning to understand the kinetic properties of their surfaces at the molecular scale. The problem is experimental sthe solids are too unwieldy, even as colloids, for detailed spectroscopy. One recent approach has been to use 1 -2 nm aqueous Al(III) molecules as experimental models to determine reaction rates and pathways at a fundamental level. The 1 -2nm-sized clusters are useful because they expose functional groups that resemble those found on the minerals, yet reactions at these functional groups can be studied at the molecular scale using relatively simple methods of solution spectroscopy, such as NMR. The 1 -2 nm ions are sufficiently small that reactions can then be simulated at a high * E-mail: whcasey@ucdavis.edu. Phone: 530-752-3211. William Casey (born 1955) received his Ph.D. degree in Mineralogy and Geochemistry from The Pennsylvania State University in 1986 under the direction of Prof. Antonio Lasaga. After graduating, he worked as a research geochemist at Sandia National Laboratories in Albuquerque, New Mexico, for several years and jointed the faculty of the University of California in 1991. He has published over 130 scientific articles on subjects relating to aqueous solution chemistry of natural waters, mineral surface chemistry, and reaction kinetics. Volume 106, Number 1