Otto Diels | |
---|---|
Born |
Hamburg, German Empire |
23 January 1876
Died | 7 March 1954 Kiel, West Germany |
(aged 78)
Nationality | Germany |
Fields | Chemistry |
Institutions | University of Kiel |
Alma mater | University of Berlin |
Doctoral advisor | Emil Fischer |
Doctoral students |
Kurt Alder Karl Wilhelm Rosenmund |
Known for | Diels–Alder reaction |
Notable awards | Nobel Prize in Chemistry (1950) |
Otto Paul Hermann Diels (German: [diːls]; 23 January 1876 – 7 March 1954) was a German chemist. His most notable work was done with Kurt Alder on the Diels–Alder reaction, a method for diene synthesis. The pair was awarded the Nobel Prize in Chemistry in 1950 for their work. Their method of synthesizing cyclic organic compounds proved valuable for the manufacture of synthetic rubber and plastic. He completed his education at the University of Berlin, where he later worked. Diels was employed at the University of Kiel when he completed his Nobel Prize–winning work, and remained there until he retired in 1945. Diels was married, with five children. He died in 1954.
Diels was born on January 23, 1876 in Hamburg, Germany, and moved with his family to Berlin when he was two years old. He studied in Berlin at Joachimsthalsches Gymnasium before attending the University of Berlin starting in 1895. While at university, Diels studied chemistry under Emil Fischer, eventually graduating in 1899.
Immediately after graduating from the University of Berlin, he was offered a position with the Institute of Chemistry at the school. He advanced quickly through the ranks at the school, eventually ending up as Department Head in 1913. He remained at the University of Berlin until 1915, when he accepted a position at the University of Kiel, where he remained until his retirement in 1945. It was during his time at Kiel, where he worked with Kurt Alder developing the Diels–Alder reaction, for which they were awarded the Nobel Prize in Chemistry in 1950. His work with Alder, a synthetic method which allows the synthesis of unsaturated cyclic compounds. This work was important in the production of synthetic rubber and plastic compounds.