Reed McNeil Izatt


Reed McNeil Izatt is a Charles E. Maw Professor of Chemistry, Emeritus, at Brigham Young University in Provo, Utah. His field of research was macrocyclic chemistry and metal separation technologies.

Early life and education

Izatt was born in 1926 in Logan, Utah. His first ten years were spent on a ranch in Sumpter Valley, Oregon where he attended school in a two-room schoolhouse. He developed an interest in geology and astronomy. His family then returned to Logan, Utah and he graduated from Logan High School in 1944. On 6 June 1944, Izatt enrolled at Utah State Agricultural College.
In 1945 and 1946, Izatt served in the United States Army and from 1947 to 1949, he was a missionary in the United Kingdom for The Church of Jesus Christ of Latter-day Saints. While stationed at Fort Douglas, Izatt studied at the University of Utah and in 1951, he received a bachelor of science in chemistry. Izatt took post graduate studies in chemistry at Pennsylvania State University. He was mentored by W. Conard Fernelius and in 1954 received a doctorate degree.

Career

Izatt worked at the Mellon Institute for Industrial Research for two years before taking a faculty position in the department of chemistry at Brigham Young University. He retired from BYU in 1993 as the Charles E. Maw Professor of Chemistry. Izatt and James J. Christensen, a chemical engineer, founded a thermochemical institute at BYU to promote and facilitate interdisciplinary research.

Awards

Izatt is a fellow of the American Association for the Advancement of Science. He was the BYU Annual Faculty Lecture in 1970. Izatt received the Utah Award ; the Huffman Award ; the American Chemical Society Separations Science and Technology Award ; the Utah Governor's Medal for Science and Technology ; and the First Annual Alumni Achievement Award .

ISI Ranking

Reed M. Izatt's number in the ISI rankings is 68.

Scientific work

Izatt and his colleagues, James J. Christensen and John L. Oscarson constructed and used a variety of novel high precision calorimeters to study a number of host and guest chemical systems of both academic and commercial interest. Izatts thermodynamic results have been used in the development of macrocyclic and supramolecular chemistry, molecular recognition, heats of mixing, nucleic acid chemistry, metal cyanide chemistry, chemical separations, amino acid microspecies formation, and high- temperature corrosion chemistry,

Macrocyclic chemistry

Izatt and Christensen made the first extensive thermodynamic study using titration calorimetry of the highly selective metal complexation properties of metal-cyclic polyether interactions. This work was followed by research correlating metal ion selectivity to macrocycle structure in a variety of solvents using a range of metal ions and organic amine cations.
Using chiral macrocycles and chiral alkylammonium salts, Izatt and his colleagues were the first to establish host–guest chiral recognition in a given system by more than one experimental method and to report K, ΔH, and ΔS values for the interactions, thus quantitating the reactions. Subsequent x- ray crystallographic resultsprovided a structural basis for the recognition.
Use of fluorophores appended to macrocycles provides advantages over other techniques for selective and sensitive metal ion detection. Izatt demonstrated that certain 8-¬hydroxyquinoline derivatives attached to diazamacrocycles elicit a strong fluorescent response when complexed to selected closed-shell metal ions. That is, Hg2+, Cd2+, Zn2+ and Mg2+. The novelty of this work lies in the high-fluorescent selectivity these ligands possess for the indicated metal ions in the presence of competing metal ions. The work presents the possibility of producing novel supported sensor systems capable of metal detection. In principle, detection limits could be well below parts per trillion. This level of detection coupled with the high metal ion selectivity imparted by the macrocyclic ligand could make these systems valuable in detecting target metal ions in environmental chemistry and as a means of continuously monitoring target metal ion concentrations in industrial streams.

Separations chemistry

Izatt and his colleagues were the first to attach macrocycles to a solid matrix and make highly selective metal separations. This achievement resulted in the establishment of IBC Advanced Technologies, Inc. which commercialized the discovery.

Legacy

Commercialization of research results

In the 1960s, Izatt and Christensen developed high-precision titration calorimeters capable of simultaneously measuring equilibrium constants and heats for chemical reactions rapidly and with precision. These calorimeters were marketed worldwide through TRONAC, a chemical instrumentation company located in Provo, Utah. This calorimeter line was later acquired by TA Instruments.
In 1988, IBC Advanced Technologies, Incorporated was founded in Provo, Utah by Izatt, Bradshaw and Christensen. IBC commercialized work in chemical separations using an environmentally safe process based on molecular recognition technology. The MRT process enables the rapid and highly selective separation of metals from solutions even in the presence of complex matrices consisting of high concentrations of competing metals and high concentrations of acids or bases. This technology is important in the purification of precious, rare, and base metals during the refining process as well as in the recovery of these metals from spent products such as catalysts and electronics. IBC's MRT products are effective in the remediation of radioactive waste, selectively separating and concentrating radionuclides such as Cs, Sr, Tc, and Ra. In addition, IBC's MRT products are used for analytical sample preparation and determination of metals, including toxic metals and radionuclides.

International macrocyclic chemistry symposia

In 1977, Izatt and Christensen organized the first Symposium on Macrocylic Compounds in Provo, Utah. In 1985, this and related symposia were incorporated into the International Symposium on Macrocyclic Chemistry . In 2006, ISMC was expanded to include supramolecular chemistry and the name was changed to International Symposium on Macrocyclic and Supramolecular Chemistry.

International Izatt-Christensen award

Since 1991, the International Izatt-Christensen award is presented annually at the ISMC and ISMSC meetings. The award recognizes excellence in macrocyclic and supramolecular chemistry and is regarded as the highest international award in these areas. Recipients include:
In 2007, Izatt created an endowment at Brigham Young University to reward faculty excellence in research in the Department of Chemistry and Biochemistry and in the Department of Chemical Engineering, and to provide funds to invite an eminent scientist or engineer from the worldwide community to present two lectures to the combined Departments of Chemistry and Biochemistry, and Chemical Engineering, one more universal in nature for the general public and the second more technical in nature for faculty and students. Recipients of the Reed M. Izatt Faculty Excellence in Research Award in Chemistry include:
The Reed M. Izatt and James J. Christensen lecturers include: