Henry Taube

Not to be confused with Henry Taub.

Henry Taube
Born (1915-11-30)November 30, 1915
Neudorf, Saskatchewan, Canada
Died November 16, 2005(2005-11-16) (aged 89)
Palo Alto, California
Residence Canada
Nationality Canadian, Naturalized Citizen of the United States
Institutions Cornell University, University of Chicago, Stanford University
Alma mater University of Saskatchewan (B.Sc.) (1935)
University of Saskatchewan (M.Sc) (1937)
University of California, Berkeley (Ph.D) (1940)
Known for Inner sphere electron transfer
Notable awards National Medal of Science (1976)
Nobel Prize in Chemistry (1983)
NAS Award in Chemical Sciences (1983)
Priestley Medal (1985)

Henry Taube, Ph.D, M.Sc, B.Sc., FRSC (November 30, 1915 November 16, 2005) was a Canadian-born American chemist noted for having been awarded the 1983 Nobel Prize in Chemistry for "his work in the mechanisms of electron-transfer reactions, especially in metal complexes."[1] He was the second Canadian-born chemist to win the Nobel Prize, and remains the only Saskatchewanian-born Nobel laureate. Taube completed his undergraduate and Masters degrees at the University of Saskatchewan, and his Ph.D from the University of California, Berkeley. After finishing graduate school, Taube worked at Cornell University, the University of Chicago and Stanford University.

In addition to the Nobel Prize, Taube also received many other major scientific awards, including the Priestley Medal in 1985 and two Guggenheim Fellowships early in his career (1949 and 1955), as well as numerous honorary doctorates. His research focused on redox reactions, transition metals and the use of isotopically labeled compounds to follow reactions. He had over 600 publications including one book, and had mentored over 200 students during his career. Taube and his wife Mary had three children, his son Karl is an anthropologist at the University of California Riverside.

Education

At 12, Taube left his hometown and moved to Regina to attend Luther College where he completed high school.[2] After graduating, Taube stayed at Luther College and worked as laboratory assistant for Paul Liefeld, allowing him to take first year university classes.[2] Taube attended the University of Saskatchewan, receiving his B.Sc. in 1935 and his M.Sc in 1937.[2] His thesis advisor at the University of Saskatchewan was John Spinks.[3] While at the University of Saskatchewan, Taube studied with Gerhard Herzberg, who would be awarded the 1971 Nobel Prize in Chemistry. He moved to University of California, Berkeley, where he completed his Ph.D studies in 1940.[2] His Ph.D mentor was William Bray.[3] Taube's graduate research focused on the photodecomposition of chlorine dioxide and hydrogen peroxide in solution.[3]

Research and academic career

Academic posts

After completing his education, Taube remained in the United States, becoming an instructor in chemistry at Berkeley until 1941. He initially wanted to return to Canada to work, but did not receive a response when he applied for jobs at the major Canadian universities.[4] From Berkeley, he served as an instructor and assistant professor at Cornell University until 1946. During World War II, Taube served on the National Defense Research Committee.[5] Taube spent time at the University of Chicago as an assistant professor, associate professor and as a full professor from 1946–61. He served as chair of the chemistry department in Chicago from 1956–59, but did not enjoy administrative work.[4] After leaving Chicago, Taube worked as a professor at Stanford University until 1986, a position that allowed him to focus on research,[4] while also teaching classes at the undergraduate and graduate levels.[6] He became a Professor Emeritus at Stanford in 1986,[7] but he continued to perform research until 2001,[8] and visited his labs every day until his death in 2005.[9] In addition to his academic duties, Taube also served as a consultant at Los Alamos National Laboratory from 1956 until the 1970s.[10][11]

Research interests

Taube's initial research at Cornell University focused on the same areas he studied as a graduate student, oxidizing agents containing oxygen and halogens, and redox reactions featuring these species. He used isotopically labeled oxygen-18 and radioactive chlorine to study these reactions. He was recognized by the American Chemical Society in 1955 for his isotope studies.[12]

Taube's interest in coordination chemistry was sparked when he was chosen to develop a course on advanced inorganic chemistry while at the University of Chicago. He was unable to find much information in the textbooks available at the time. Taube realized that his work on the substitution of carbon in organic reactions could be related to inorganic complexes.[4] In 1952, Taube published a key paper relating the rates of chemical reactions to electronic structure in Chemical Reviews.[4][6][13] This research was the first to recognize the correlation between the rate of ligand substitution and the d-electron configuration of the metal.[3] Taube's key discovery was the way molecules build a type of "chemical bridge" rather than simply exchanging electrons, as previously thought. Identifying this intermediate step explained why reactions between similar metals and ions occurred at different rates. His paper in Chemical Reviews was developed while on sabbatical in the late 1940s.[14] An article in Science called this paper "one of the true classics in inorganic chemistry" after his Nobel Prize was announced.[15] Taube researched ruthenium and osmium, both elements have a high capacity for back bonding. This type of electron donation was key when studying the way electrons are transferred between molecules in a chemical reaction.[4]

When looking back on his research, Taube explained that he sometimes had difficulty finding graduate students willing to work on electron transfer reactions, as they preferred to work on more "exciting" projects in his laboratory focusing on the effects of isotopic tracers and kinetics.[3] Taube felt that a "primary flaw" with his correlation between electron configuration and ligand substitution was that it was described mainly in terms of valence bond theory, as crystal field theory and ligand field theory were not well established when he published his work in 1952.[3]

Awards and honors

Nobel Prize

Taube was awarded the 1983 Nobel Prize in Chemistry "for his work on the mechanisms of electron transfer reactions, especially in metal complexes."[16] He received his award on December 8, 1983, with the presentation speech being delivered by Ingvar Lindqvist of the Swedish Royal Academy of Sciences.[17] Taube's Nobel Lecture was entitled "Electron Transfer between Metal Complexes - Retrospective."[18] His Nobel Prize was the first awarded to a Canadian-born chemist.[3] Taube's win was the first for an inorganic chemist since 1913 (Alfred Werner),[3] breaking a long string of awards to organic chemists.[4] His initial paper in Chemical Reviews was 30 years old at the time of his Nobel Prize victory, but the correlation he described between the rate of ligand substitution and electronic configuration for transition metal coordination complexes was still the predominant theory about the reaction chemistry of these compounds.[15] After being awarded the Nobel Prize, Taube noticed a side benefit to the prestigious award - his students paid better attention in class.[19]

Other awards

Taube was accepted as a member of the National Academy of Sciences in 1959.[6] President Jimmy Carter presented Taube with the 1976 President's National Medal of Science "in recognition of contributions to the understanding of reactivity and reaction mechanisms in inorganic chemistry."[20] In 1985, Taube received the American Chemical Society's highest honor, the Priestley Medal, which is awarded to recognize "distinguished services to chemistry".[21] He was awarded Guggenheim Fellowships in 1949 and 1955.[7] Taube was made an honorary member of the College of Chemists of Catalonia and Beleares (1984), the Canadian Society of Chemists (1986), and the Hungarian Academy of Sciences (1988).[7] He was also awarded an honorary fellowship in the Royal Society of Chemistry (1989) and the Indian Chemical Society (1989)[7] and elected a Fellow of the Royal Society (FRS) in 1988. Taube received honorary degrees from many institutions, including the University of Saskatchewan (1973), the University of Chicago (1983), the Polytechnic Institute of New York (1984), the State University of New York Stony Brook (1985),[22] the University of Guelph (1987), Seton Hall University (1988), the Lajos Kossuth University of Debrecen in Hungary (1988) and Northwestern University (1990).[7] A Nobel Laureate Plaza on the University of Saskatchewan's campus in honour of Taube and Gerhard Herzberg was dedicated in 1997.[3]

Legacy

In 1981, Taube became a founding member of the World Cultural Council.[23]

As of 1997, Taube had over 600 publications, and had worked with over 250 students. He published a book, Electron Transfer Reactions of Complex Ions in Solution (Current Chemical Concepts) in 1970.[24] His students have had faculty positions at many prestigious universities, including Cornell, Rutgers, Georgetown and Georgia Tech. Together with graduate student Carol Creutz, he is the namesake of the Creutz-Taube complex, a metal complex with the formula [Ru(NH3)5]2(C4H4N2)5+.[25] His research contributions have been honored in several ways, including a symposium at the 1982 annual American Chemical Society meeting. The annual series Progress in Inorganic Chemistry dedicated its 30th volume to Taube, entitled "An Appreciation of Henry Taube."[12] Luther College in Regina, Saskatchewan offers an annual scholarship to an entering science student in honour of Taube and his science teacher, Paul Liefeld.[26] A seminar series was created in honor of his work at Stanford. Taube gave the inaugural lecture in the series.[27]

Colleagues remember Taube as a dedicated scientist, Jim Collman of Stanford said "Henry was a scientist's scientist and a dominant figure in the field of inorganic chemistry."[27] Harry Gray, a professor at California Institute of Technology said, "He was in a class by himself, a role model and leader whom we all admired and loved."[9] Former student Peter Ford remembers that Taube "made chemistry not only challenging and stimulating, but a lot of fun as well."[28]

Personal life

Taube was born November 30, 1915 in Neudorf, Saskatchewan as the youngest of four boys.[2] His parents were German ethnics from Ukraine which had immigrated to Saskatchewan from the Ukraine in 1911.[2] Growing up, his first language was Low German.[14] In the 1700s, Catherine the Great encouraged Central European farmers to settle in Russia. As the rights afforded to these settlers by Catherine were gradually diminished, many of the settlers headed to North America, with Saskatchewan offering good farmland, and other incentives for immigrants.[29] Taube reflected fondly on his experiences growing up in Saskatchewan, noting: "Certainly, there is nothing about my first 21 years in Saskatchewan, taken in the context of those times that I would wish to be changed. The advantages that I enjoyed include: the marvelous experience of growing up on a farm, which taught me an appreciation of nature, and taught me also to discipline myself to get necessary jobs done..."[3]

After completing his graduate studies, Taube became a naturalized citizen of the United States in 1942.[3] Taube married his wife, Mary in 1952. They had three children, Karl, Heinrich and Linda. His stepdaughter, Marianna died of cancer in 1998. When he stopped his active research projects in 2001, Taube continued to be available as a reviewer and consultant, but his main goal was "enjoying life".[19] Away from chemistry, Taube had varied interests including gardening and classical music, mainly opera.[6] In 2003 he was one of 22 Nobel Laureates who signed the Humanist Manifesto.[30]

Henry Taube died in his home in Palo Alto, California on November 16, 2005, at the age of 89.[31]

References

  1. "Press Release: The 1983 Nobel Prize in Chemistry". NobelPrize.org The Official Website of the Nobel Prize. Retrieved 2010-08-30.
  2. 1 2 3 4 5 6 "Taube, Henry (1915-2005)". University of Regina. Retrieved 2010-08-30.
  3. 1 2 3 4 5 6 7 8 9 10 11 Van Houten, J. (July 2002). "A Century of Chemical Dynamics Traced Through the Nobel Prizes: Henry Taube 1983" (PDF). Journal of Chemical Education. Retrieved 2010-09-22.
  4. 1 2 3 4 5 6 7 McGrath, Kimberley A.; Travers, Bridget, eds. (1999). World of Scientific Discovery, 2nd Edition. Detroit: Gale Research. pp. 921–922. ISBN 0-7876-2760-7.
  5. "Henry Taube Biography". The Biography Channel. Retrieved 2011-03-25.
  6. 1 2 3 4 "Memorial Resolution: Henry Taube" (pdf). Stanford University Senate. Retrieved 2010-09-25.
  7. 1 2 3 4 5 "Henry Taube - Curriculum Vitae". Nobel Web. Retrieved 2010-09-22.
  8. Creutz, Carol; Ford, Peter C.; Meyer, Thomas J. (2006). "Henry Taube: Inorganic Chemist Extraordinaire". Inorganic Chemistry. 45: 7059–7068. doi:10.1021/ic060669s. PMID 16933904.
  9. 1 2 Wilson, Elizabeth K. (2005-11-18). "Nobelist Henry Taube Dead at 89". Chemical and Engineering News. Retrieved 2011-03-24.
  10. "Henry Taube and Coordination Chemistry". United States Department of Energy Office of Scientific and Technical Information. Retrieved 2010-09-22.
  11. Jackson, Jasper A. (November 1985). "Early History of NMR at Los Alamos" (pdf). International Atomic Energy Agency. pp. 3, 7. Retrieved 2011-03-25.
  12. 1 2 Walsh, Jerry; Ardon, Michael; Isied, Stephan S. (1997). "Henry Taube, 1983 Nobel Laureate, the Taube Revolution, 1952-1954, Preface, Acknowledgments". 253: xi–xxii. doi:10.1021/ba-1997-0253.pr001.
  13. Taube, Henry (1952). "Rates and Mechanisms of Substitution in Inorganic Complexes in Solution". Chemical Reviews. 50: 69–126. doi:10.1021/cr60155a003.
  14. 1 2 Ford, Peter C. (2005). "Celebration of inorganic lives: interview with Henry Taube". Coordination Chemistry Reviews. 249: 275–279. doi:10.1016/j.ccr.2004.09.010.
  15. 1 2 Gray, Harry B.; Collman, James P. (1983-12-02). "The 1983 Nobel Prize in Chemistry". Science. 222 (4627): 986–987. Bibcode:1983Sci...222..986G. doi:10.1126/science.222.4627.986.
  16. "The Nobel Prize in Chemistry Henry Taube 1983". Nobel Web. Retrieved 2010-09-22.
  17. "Award Ceremony Speech". Nobel Web. Retrieved 2010-09-22.
  18. "Henry Taube - Nobel Lecture". Nobel Web. Retrieved 2010-09-22.
  19. 1 2 "Nobel laureate Henry Taube". Stanford Report. 2001-10-03. Retrieved 2011-03-24.
  20. "US NSF - The President's National Medal of Science: Recipient Details". The National Science Foundation. Retrieved 2010-09-25.
  21. "Priestley Medal". American Chemical Society. Retrieved 2010-09-25.
  22. "SUNY Honorary Degrees". SUNY. Retrieved 2011-04-05.
  23. "About Us". World Cultural Council. Retrieved November 8, 2016.
  24. Electron Transfer Reactions of Complex Ions in Solution (Current Chemical Concepts). New York, NY: Academic Press Inc. 1970. ISBN 978-0-12-683850-3.
  25. Creutz, Carol; Taube, Henry (1969). "Direct approach to measuring the Franck-Condon barrier to electron transfer between metal ions". Journal of the American Chemical Society. 91 (14): 3988–3989. doi:10.1021/ja01042a072.
  26. "Awards for entering students". Luther College, University of Regina. Retrieved 2011-03-21.
  27. 1 2 "Taube Lecture". Stanford University, Chemistry Department. Retrieved 2011-03-24.
  28. Rubenstein, Steve (2005-11-19). "Henry Taube -- Nobel in chemistry". San Francisco Chronicle. Retrieved 2011-03-24.
  29. "German Settlements". The Encyclopedia of Saskatchewan. Retrieved 2011-04-02.
  30. "Notable Signers". Humanism and Its Aspirations. American Humanist Association. Retrieved October 4, 2012.
  31. Shwartz, Mark (2005-11-17). "Henry Taube, recipient of Nobel Prize in Chemistry, dead at 89". Stanford University. Retrieved 2010-09-22.

Publications

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