Hugh Stott Taylor

Hugh Stott Taylor
Born (1890-02-06)6 February 1890
Died 17 April 1974(1974-04-17) (aged 84)
Alma mater University of Liverpool
Notable awards Fellow of the Royal Society[1]

Sir Hugh Stott Taylor KBE FRS (6 February 1890 – 17 April 1974) was an English chemist primarily interested in catalysis.[2] In 1925, in a landmark contribution to catalytic theory, Taylor suggested that a catalyzed chemical reaction is not catalyzed over the entire solid surface of the catalyst but only at certain ‘active sites’ or centers.[3]

He also developed important methods for procuring heavy water during World War II and pioneered the use of stable isotopes in studying chemical reactions.[1][4][5][6]

Early life

Taylor was born in St Helens, Lancashire, England in 1890, the son of glass technologist James and Ellen (née Stott) Taylor. He was educated at Cowley Grammar School in St Helens and then attended the University of Liverpool, where he received his B.Sc. in 1909 and his M.Sc. in 1910. Taylor then carried out three years of graduate work in Liverpool, after which he spent one year at the Nobel Institute in Stockholm in the laboratory of Svante Arrhenius and another at the Technische Hochschule in Hanover under Max Bodenstein. These studies earned him a Ph.D degree from the University of Liverpool in 1914.

Basic research

Taylor showed that chemisorption may be an activated process, and occur slowly. Moreover, he conceived the idea that chemically active sites might be sparse on the surface of a catalyst and, hence, could be inhibited with relatively few molecules.

Taylor showed that hydrogen atoms are key intermediates of reactions involving H2 on metal surfaces and also discovered the conversion of heptane to toluene over chromium oxide.

Protein structure

Taylor and a graduate student developed the first semi-realistic model of the α-helix, an element of protein secondary structure. An earlier model by Astbury had been shown to be physically implausible by Hans Neurath. Using physical models and chemical reasoning, Taylor sought to find a better model, which differs only slightly from the modern α-helix proposed by Linus Pauling and Robert Corey. Taylor reported their models at his Franklin Medal lecture (1941) and in press (1942).

Work at Princeton

Taylor began at Princeton in 1914 as Instructor in Physical Chemistry, and by 1915, was made an Assistant Professor. He was promoted to Professor of Physical Chemistry in 1922 and became chair of the Chemistry Department at Princeton in 1926, where he served until 1951. In 1927, Taylor became the David B. Jones Professor of Chemistry at Princeton. Taylor also served as the Dean of the Graduate School at Princeton from 1948–1958.

As Chair of Chemistry from 1926–1951, Taylor developed the Chemistry Dept. at Princeton energetically and oversaw the construction of the Frick Chemical Laboratory.

He was elected a Fellow of the Royal Society in May 1932.[7]

Personal life

He married Elizabeth Agnes Sawyer on 12 June 1919; They had two daughters.

Taylor was knighted by both Pope Pius XII and Queen Elizabeth II.

The Hugh Stott Taylor Chair of Chemistry at Princeton was funded by an anonymous gift of $500K in honor of Taylor's contributions to Princeton.

Taylor was a devoted Catholic who helped to establish the Catholic chaplaincy at Princeton in 1928 and spoke publicly about the reconciliation of science and faith. He was made a Knight Commander of the Order of St. Gregory the Great (Papal) and a Commander of the Order of Leopold II of Belgium.[2]

Death

Taylor died on 17 April 1974 in Princeton, New Jersey.[8]

References

  1. 1 2 Kemball, C. (1975). "Hugh Stott Taylor 6 February 1890 -- 17 April 1974". Biographical Memoirs of Fellows of the Royal Society. 21: 517–526. doi:10.1098/rsbm.1975.0017.
  2. 1 2 Who Was Who, Published by A&C Black Limited
  3. Taylor, H. S. (1925). "A Theory of the Catalytic Surface". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 108 (745): 105. doi:10.1098/rspa.1925.0061.
  4. "H. Taylor". Nature. 251 (5472): 266. 1974. doi:10.1038/251266b0.
  5. (1975) Chem. Brit., 11, 370–371.
  6. Biographical sketch at Princeton
  7. "Library and Archive Catalogue". Royal Society. Retrieved 25 October 2010.
  8. Biography at Astro4.ast.vill.edu.

External links

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