- Marcus, Rudolph A.
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Canadian-born U.S. chemist.Educated at McGill University, he worked at the Polytechnic Institute of Brooklyn (from 1951), the University of Illinois (from 1964), and the California Institute of Technology (from 1978). He studied electron transfer in redox reactions in the 1950s and '60s, finding that subtle changes in the molecular structures of the reactants and the solvent molecules around them influence the ability of electrons to move between the molecules. He also discovered the parabolic relationship between the driving force of an electron-transfer reaction and the reaction's rate. His work, which has shed light on fundamental phenomena such as photosynthesis, cell metabolism, and simple corrosion, won him a 1992 Nobel Prize.
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▪ Canadian chemistborn July 21, 1923, Montreal, Que., Can.Canadian-born American chemist, winner of the 1992 Nobel Prize for Chemistry for his work on the theory of electron-transfer reactions in chemical systems. The Marcus theory shed light on diverse and fundamental phenomena such as photosynthesis, cell metabolism, and simple corrosion.Marcus received his doctorate from McGill University, Montreal, in 1946. From 1951 he worked at the Polytechnic Institute of Brooklyn. In 1964 he joined the faculty of the University of Illinois, leaving in 1978 for the California Institute of Technology.Marcus began studying electron-transfer reactions in the 1950s. In a series of papers published between 1956 and 1965, he investigated the role of surrounding solvent molecules in determining the rate of redox reactions (oxidation–reduction reaction)—oxidation and reduction reactions in which the reactants exchange electrons—in solution. Marcus determined that subtle changes occur in the molecular structure of the reactants and the solvent molecules around them; these changes influence the ability of electrons to move between the molecules. He further established that the relationship between the driving force of an electron-transfer reaction and the reaction's rate is described by a parabola. Thus, as more driving force is applied to a reaction, its rate at first increases but then begins to decrease. This insight aroused considerable skepticism until it was confirmed experimentally in the 1980s.Marcus also did important work in areas such as transition-state theory, the theory of unimolecular reactions, and the theory of collisions and bound states.* * *
Universalium. 2010.