Abraham Nitzan was born in Tel Aviv. He received his bachelor's degree in Chemistry from the Hebrew University in Jerusalem in 1964, and his master's degree in physical chemistry from the same institute in 1966. His research towards the master's degree, on the radiation chemistry of aqueous solutions, was supervised by Gideon Czapski. During the period 1966-1969 he served in the Israel Defense Forces and in 1972 completed his Ph.D. studies at Tel Aviv University under the supervision of Joshua Jortner. His thesis focused on the theory of non-radiative transitions in large molecules.
Professional career
In the years 1972-1974, Nitzan worked as a research fellow at the Massachusetts Institute of Technology. The following year he stayed at Northwestern University, after which he returned to Israel and joined the faculty of the chemistry department of Tel Aviv University. In 1981 he was promoted to the rank of professor. Between 1983 and 1986 he served as head of the School of Chemistry, developing study programs integrating the study of Chemistry with other subjects, and in the period 1995-1998 he served as dean of the Faculty of Exact Sciences. Among his academic duties, he served as head of the faculty teaching committee, member of the university promotions committee, and Senate representative in the central committee and board of trustees. He was also a member of the Ministry of Education topical committee on Chemistry. Current to 2012, Nitzan directs the at Tel Aviv University. Apart from his being a professor and visiting researcher at universities around the world, Nitzan was a member of the editorial boards of the scientific journals "Physical Review Letters", "Journal of Chemical Physics" and "Journal of Physical Chemistry".
Research
Nitzan's field of research is chemical dynamics, which studies the dynamics of chemical processes on the microscopic level. In particular, his studies deal with processes involving interactions between light and matter, chemical reactions in condensed phases and chemical processes at interfaces. His early research has focused on energy transfer processes in molecular systems. This was followed a series of works on surface enhanced optical process that later led to the development of the field of molecular plasmonics, as well as works on activated rate processes and charge transfer in complex molecular environments. Later work has focused on electron solvation, transfer and transport in molecular environment and at interfaces, culminated in a series of studies on molecular electronics. By 2012, he has published 350 scientific articles, and his work has been presented in dozens of international conferences. He was ranked as one of the hundred top chemists in the world between 2000 and 2010, as ranked by the impact of their scientific research, by Science Watch.