Fritz Pregl was a prominent Austrian analytical chemist and physician born in Slovenia. He is famous for receiving the 1923 Nobel Prize for Chemistry for developing techniques in the microanalysis of organic compounds. He also developed microanalytical methods for functional groups and for molecular weights. His methods of analysis of minimal amounts of substances allowed revolutionary research into metabolism, hormones, and enzymes.
Background
Fritz Pregl was born on September 3, 1869, in Laibach (now Ljubljana), Austria-Hungary (now Slovenia) to a Slovene-speaking father and German-speaking mother. Pregl’s father, Raimund Pregl, a bank treasurer in Carniola, died when his son was still young. His mother was Friderike Schlacker.
Education
In 1887, after graduating from the Gymnasium in Laibach, Pregl entered the University of Graz to study medicine. To broaden his scientific knowledge, Pregl spent a year (1904) in Germany, where his preference for chemistry became stronger. He studied physiological chemistry with Carl Hüfner at Tübingen, physical chemistry with Wilhelm Ostwald at Leipzig, and organic chemistry with Emil Fischer. At Berlin, he also investigated the hydrolysis products of egg albumin with E. Abderhalden, who became a lifelong friend.
Career
After entering the University of Graz to study medicine, Pregl spent almost his entire career at this university. His mentor in physiology quickly recognized Pregl’s abilities and made him an assistant in his laboratory before he had completed his studies. Following his graduation, he remained at the laboratory but also practiced medicine, specializing in ophthalmology.
Although Pregl gained a thorough knowledge of physiology, his interest soon turned to physiological chemistry. He became an outstanding experimenter and investigated the reactions of cholic acid and the causes of the high values of the carbon: nitrogen ratio in human urine. The latter research qualified him in 1899 for the post of university lecturer in physiology.
After his return to Graz, Pregl became an assistant at the medical-chemical laboratory of the university; he studied bile acids and also conducted research in protein chemistry. From these investigations, he repeatedly found that the analytical methods of organic chemistry were too complicated, lengthy, and inexact for the determination of the composition of materials of biochemical origin. Such methods also required large test samples, which were often difficult to obtain with organic substances.
Pregl thus set himself the task of making the classical methods of elementary analysis feasible on a microscale. He approached this problem as a physiological chemist, hoping to create a suitable method for his investigations. The problem, however, proved to be more complicated than expected, and it gradually claimed his full attention. Organic microanalysis increasingly became the focus of his research, and he found that the methods of analytic chemistry were essential.
Pregl’s methods did not deviate in principle from those of Liebig and Dumas; but now only one to three milligrams were sufficient for a determination, which could also be executed much more quickly and exactly. To create the necessary apparatus, this transformation of methods required a great deal of effort and technical skill, and it was of such importance that Pregl was awarded the Nobel Prize in chemistry.
In 1910 Pregl was appointed a professor of medical chemistry at the University of Innsbruck, where he was able to realize his plans. His first task was to find a balance more sensitive than that used in analytical chemistry. W. H. Kuhlmann had recently constructed balances for the determination of noble metals that measured with an exactness of 0.01 to 0.02 milligrams. Pregl found that with smaller quantities and under suitable circumstances measurements could be made with an exactness of ± 0.001 milligrams. He soon established methods for the microdetermination of carbon and hydrogen; these methods were followed by others for determining nitrogen, halogen sulfur, carboxyl, and other substances. Pregl extended his research to include a broad range of organic substances; and in 1917 he published Die quantitative organische Mikroanalyse, which was preceded by only a short publication in Abderhalden’s Handbuch der biochemischen Arbeitsmethoden. Pregl’s book underwent numerous and frequently revised editions and was translated into several languages.
Pregl’s development of microanalysis was an immeasurable advance in both science and industry, and much of the groundwork in biochemistry evolved from his developments. In 1923, only six years after the appearance of his book, he was awarded the Nobel Prize - the first to be awarded for accomplishments in the field of analytical chemistry.
In 1913 Pregl had been recalled to Graz; he was named professor of medical chemistry and was active in research until his death. His laboratory had become a world-renowned center of organic microanalysis.
Personality
Pregl was an earnest, energetic man, often given to sarcastic humor. He frequently engaged in mountain climbing and bicycling and was an enthusiastic automobile driver.