Ilya Prigogine

Russian-Belgian physical chemist
verifiedCite
While every effort has been made to follow citation style rules, there may be some discrepancies. Please refer to the appropriate style manual or other sources if you have any questions.
Select Citation Style
Feedback
Corrections? Updates? Omissions? Let us know if you have suggestions to improve this article (requires login).
Thank you for your feedback

Our editors will review what you’ve submitted and determine whether to revise the article.

Quick Facts
Born:
Jan. 25, 1917, Moscow, Russia
Died:
May 28, 2003, Brussels, Belg.
Awards And Honors:
Nobel Prize (1977)

Ilya Prigogine (born Jan. 25, 1917, Moscow, Russia—died May 28, 2003, Brussels, Belg.) was a Russian-born Belgian physical chemist who received the Nobel Prize for Chemistry in 1977 for contributions to nonequilibrium thermodynamics.

Prigogine was taken to Belgium as a child. He received a doctorate in 1941 at the Free University in Brussels, where he accepted the position of professor in 1947. In 1962 he became director of the International Institute of Physics and Chemistry in Solvay, Belg. He also served as director of the Center for Statistical Mechanics and Thermodynamics at the University of Texas in Austin from 1967 until his death.

Prigogine’s work dealt with the application of the second law of thermodynamics to complex systems, including living organisms. The second law states that physical systems tend to slide spontaneously and irreversibly toward a state of disorder (a process driven by an increase in entropy); it does not, however, explain how complex systems could have arisen spontaneously from less-ordered states and have maintained themselves in defiance of the tendency toward maximum entropy. Prigogine argued that as long as systems receive energy and matter from an external source, nonlinear systems (or dissipative structures, as he called them) can go through periods of instability and then self-organization, resulting in more-complex systems whose characteristics cannot be predicted except as statistical probabilities. Prigogine’s work was influential in a wide variety of fields, from physical chemistry to biology, and was fundamental to the new disciplines of chaos theory and complexity theory.

The Editors of Encyclopaedia BritannicaThis article was most recently revised and updated by Tracy Grant.