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George de Hevesy

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George de Hevesy
Born
György Bischitz

(1885-08-01)1 August 1885
Died5 July 1966(1966-07-05) (aged 80)
Citizenship
  • Hungary
  • Germany
EducationUniversity of Budapest
Technische Universität Berlin
University of Freiburg
Known for
Spouse
Pia Riis
(m. 1924)
Children4
Parents
  • Lajos Bischitz (father)
  • Eugénia Schossberger (mother)
AwardsNobel Prize for Chemistry (1943)
Copley Medal (1949)
Faraday Lectureship Prize (1950)
Atoms for Peace Award (1958)
Fellow of the Royal Society[1]
Scientific career
FieldsChemistry
InstitutionsGhent University
University of Budapest
Niels Bohr Institute
ETH Zürich
University of Freiburg
University of Manchester
Stefan Meyer Institute for Subatomic Physics
Doctoral advisorGeorg Franz Julius Meyer
Other academic advisorsFritz Haber
Ernest Rutherford
Doctoral studentsRolf Hosemann
Johann Böhm
Other notable studentsErika Cremer (postdoc)

George Charles de Hevesy (born György Bischitz; Hungarian: Hevesy György Károly; German: Georg Karl von Hevesy; 1 August 1885 – 5 July 1966) was a Hungarian radiochemist and Nobel Prize in Chemistry laureate, recognized in 1943 for his key role in the development of radioactive tracers to study chemical processes such as in the metabolism of animals. He also co-discovered the element hafnium.[1][2][3][4][5][6]

Biography

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Early years

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Hevesy György was born in Budapest, Hungary, to a wealthy and ennobled family of Hungarian-Jewish descent,[7] the fifth of eight children to his parents Lajos Bischitz and Baroness Eugénia (Jenny) Schossberger (ennobled as "De Tornya"). Grandparents from both sides of the family had provided the presidents of the Jewish community of Pest.[7] His parents converted to Roman Catholicism.[8] George grew up in Budapest and graduated high school in 1903 from Piarist Gimnázium.[9] The family's name in 1904 was Hevesy-Bischitz, and Hevesy later changed his own.

De Hevesy began his studies in chemistry at the University of Budapest for one year, and at the Technische Hochschule in Charlottenburg (now Technische Universität Berlin) for several months, but transferred to the University of Freiburg. There he met Ludwig Gattermann. In 1906, he started his Ph.D. thesis with Georg Franz Julius Meyer,[10] acquiring his doctorate in physics in 1908. In 1908, Hevesy was offered a position at the ETH Zürich, Switzerland, yet being independently wealthy, he was able to choose his research environment. He worked first with Fritz Haber in Karlsruhe, Germany, then with Ernest Rutherford in Manchester, England, where he also met Niels Bohr. Back at home in Budapest, he was appointed professor in physical chemistry in 1918. In 1920, he settled in Copenhagen.

Research

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In 1922, de Hevesy co-discovered (with Dirk Coster) the element hafnium (72Hf) (Latin Hafnia for "Copenhagen", the home town of Niels Bohr). Mendeleev's 1869 periodic table arranged the chemical elements into a logical system, but a chemical element with 72 protons was missing. Hevesy determined to look for that element on the basis of Bohr's atomic model. The mineralogical museum of Norway and Greenland in Copenhagen furnished the material for the research. Characteristic X-ray spectra recordings made of the sample indicated that a new element was present. The accepted account has been disputed by Mansel Davies and Eric Scerri who attribute the prediction that element 72 would be a transition element to the chemist Charles Bury.[citation needed]

Supported financially by the Rockefeller Foundation, Hevesy had a very productive year. He developed the X-ray fluorescence analytical method, and discovered the samarium alpha-ray. It was here he began the use of radioactive isotopes in studying the metabolic processes of plants and animals, by tracing chemicals in the body by replacing part of stable isotopes with small quantities of the radioactive isotopes. In 1923, Hevesy published the first study on the use of the naturally radioactive 212Pb as radioactive tracer to follow the absorption and translocation in the roots, stems and leaves of Vicia faba, also known as the broad bean.[11][12] Later, in 1943, the work on radioactive tracing would earn Hevesy the Nobel Prize in Chemistry.[13]

In 1924, Hevesy returned to Freiburg as Professor of Physical Chemistry. In 1930, he went to Cornell University, Ithaca as Baker Lecturer. In 1934, after the Nazis came to power in Germany, he returned to Niels Bohr's Institute at the University of Copenhagen. In 1936, he invented Neutron Activation Analysis. In 1943 he fled to Stockholm (Sweden being neutral during the war), where he an associate of the Institute of Research in Organic Chemistry. In 1949 he was elected Franqui Professor in the University of Ghent. In his retirement, he remained an active scientific associate of the University of Stockholm.

World War II and beyond

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Stolpersteine memorials for Georg and his wife Pia de Hevesy in Freiburg

Prior to the onset of World War II, Max von Laue and James Franck had sent their gold Nobel Prize medals to Denmark to keep them from being confiscated by the Nazis. After the Nazi invasion of Denmark this placed them in danger; it was illegal at the time to send gold out of Germany, and were it discovered that Laue and Franck had done so, they could have faced prosecution. To prevent this, de Hevesy concealed the medals by dissolving them in aqua regia and placing the resulting solution on a shelf in his laboratory at the Niels Bohr Institute in Copenhagen. After the war, he returned to find the solution undisturbed and precipitated the gold out of the acid. The Nobel Society then recast the medals using the recovered gold and returned them to the two laureates.[14][15]

By 1943, Copenhagen was no longer safe for a Jewish scientist and de Hevesy fled to Sweden, where he worked at the University of Stockholm until 1961. In Stockholm, de Hevesy was received at the department of chemistry by the Swedish professor and Nobel Prize winner Hans von Euler-Chelpin, who remained strongly pro-German throughout the war. Despite this, de Hevesy and von Euler-Chelpin collaborated on many scientific papers during and after the war.

While in Stockholm, de Hevesy received the Nobel Prize in chemistry. He was later inducted into the Royal Swedish Academy of Sciences and received the Copley Medal, of which he was particularly proud. De Hevesy stated: "The public thinks the Nobel Prize in chemistry for the highest honor that a scientist can receive, but it is not so. Forty or fifty have received Nobel chemistry prizes, but there are only ten foreign members of the Royal Swedish Academy, and only two have received a Copley." (Bohr was the other one.) He received the Atoms for Peace Award in 1958 for his peaceful use of radioactive isotopes.

Family life and death

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George de Hevesy's grave in Budapest. Cemetery Kerepesi: 27 Hungarian Academy of Sciences.

De Hevesy married Pia Riis in 1924. They had one son and three daughters together, one of whom (Eugenie) married a grandson of the Swedish Nobel laureate Svante Arrhenius.[16] De Hevesy died in 1966 at the age of eighty and was buried in Freiburg. In 2000, his body was moved to the Kerepesi Cemetery in Budapest, Hungary. He had published a total of 397 scientific documents, one of which was the Becquerel-Curie Memorial Lecture, in which he had reminisced about the careers of pioneers of radiochemistry.[17] At his family's request, his ashes were interred at his birthplace in Budapest on 19 April 2001.

On 10 May 2005 the Hevesy Laboratory[18] was founded at Risø National Laboratory for Sustainable Energy, now Technical University of Denmark, DTU Nutech. It was named after George de Hevesy as the father of the isotope tracer principle under the initiative of the lab's first director, Prof. Mikael Jensen.

See also

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References

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  1. ^ a b Cockcroft, J. D. (1967). "George de Hevesy 1885-1966". Biographical Memoirs of Fellows of the Royal Society. 13: 125–126. doi:10.1098/rsbm.1967.0007. S2CID 122095945.
  2. ^ Levi, H. (1976). "George von Hevesy memorial lecture. George Hevesy and his concept of radioactive indicators--in retrospect". European Journal of Nuclear Medicine. 1 (1): 3–10. doi:10.1007/BF00253259. PMID 797570. S2CID 6640231.
  3. ^ Ostrowski, W. (1968). "George Hevesy inventor of isotope methods in biochemical studies". Postepy Biochemii. 14 (1): 149–153. PMID 4870858.
  4. ^ Dal Santo, G. (1966). "Professor George C. De Hevesy. In reverent memory". Acta Isotopica. 6 (1): 5–8. PMID 4865432.
  5. ^ "George De Hevesy". Triangle; the Sandoz Journal of Medical Science. 91: 239–240. 1964. PMID 14184278.
  6. ^ Weintraub, B. (April 2005), "George de Hevesy: Hafnium and Radioactive Traces; Chemistry", Bull. Isr. Chem. Soc. (18): 41–43
  7. ^ a b Levi, Hilde (1985), George de Hevesy : life and work : a biography, Bristol: A. Hilger, p. 14, ISBN 978-0-85274-555-7
  8. ^ "George de Hevesy, Nobel Prize in Chemistry 1943". geni_family_tree. August 1885.
  9. ^ Náray-Szabó, Gábor; G, Palló (2012), The Hungarian Gymnasium Educational Experience and Its Influence on the Global Power Shift, Global Science & Technology Forum, ISBN 9780615573106, retrieved 6 June 2023
  10. ^ Norrby, Erling (2013), Nobel Prizes and Nature's Surprises
  11. ^ Myers, W. G. (1979). "Georg Charles de Hevesy: The father of nuclear medicine". Journal of Nuclear Medicine. 20 (6): 590–594. PMID 395289.
  12. ^ Hevesy, G. (1923). "The Absorption and Translocation of Lead by Plants: A Contribution to the Application of the Method of Radioactive Indicators in the Investigation of the Change of Substance in Plants". The Biochemical Journal. 17 (4–5): 439–445. doi:10.1042/bj0170439. PMC 1263906. PMID 16743235.
  13. ^ "The Nobel Prize in Chemistry 1943". NobelPrize.org.
  14. ^ Hevesy, George (1962), Adventures in radioisotope research, vol. 1, New York: Pergamon press, p. 27
  15. ^ Birgitta Lemmel (2006). "The Nobel Prize Medals and the Medal for the Prize in Economics". The Nobel Foundation.
  16. ^ Scripps Log obituaries, http://scilib.ucsd.edu/sio/biogr/ScrippsLogObits.pdf Archived 21 October 2020 at the Wayback Machine
  17. ^ De Hevesy, George C. (1961), "Marie Curie and her contemporaries" (PDF), Journal of Nuclear Medicine, 2: 169–82, PMID 13714019
  18. ^ Hevesy Laboratory
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