Alan Anthony Jones was an American professor of chemistry at Clark University in Worcester, Massachusetts.
Education
He attended Colgate University and received his Bachelor of Arts in 1966. He earned a Doctor of Philosophy in Chemistry at the University of Wisconsin–Madison in 1972 and worked at Clark after working as a postdoctoral fellow at Dartmouth College under Walter H. Stockmayer from 1972-1974.
Career
During his more than thirty years at Clark he served as a mentor and advisor to hundreds of undergraduate, graduate and post-doctoral students. He was a leading researcher in the field of Nuclear magnetic resonance and polymer physics. His research focused on solid state Nuclear magnetic resonance spectroscopy of polymer systems
This work was supported for many years through grants from agencies such as the National Science Foundation, Petroleum Research Fund and the Army Research Office.
At Clark, Jones and fellow professor Paul Inglefield built a Nuclear magnetic resonance facility at the university and wrote over 100 research papers. Some of Jones" ideas led to new ideas for the use of Nuclear magnetic resonance in studying polymer systems, such as his highly cited 1977 paper: Models for spin relaxation in dilute solutions of randomly coiled polymers.
He attracted many undergraduates to do research in his laboratory, many of whom went into graduate school after graduating from Clark. During his tenure he directed more than twenty Doctor of Philosophy candidates to the successful completion of their theses.
He also served Clark at the highest levels in the administration, being Acting Provost 1987-1988 and Dean of Graduate Studies and Research 1993-1995.
Jones died unexpectedly on May 23, 2006. Before his death, Jones had been researching synthetic polymers that would be suitable membranes for use in chemical separations, fuel cells and solid electrolytes. He used PFG Nuclear magnetic resonance to follow the diffusion of small molecules or ions and determine their self-diffusion coefficient.
Diffusion in these systems was observed to be enhanced by up to an order of magnitude by the addition of nanoparticles and the mechanism for this enhancement was under investigation at the time of his death.
After he died, his students continued his research.