Christopher Kelk Ingold Explained

Honorific Prefix:Sir
Christopher Kelk Ingold
Birth Date:1893 10, df=yes
Birth Place:London, England
Death Place:Edgware, London, England
Nationality:British
Field:Chemistry
Work Institutions:Imperial College London
University of Leeds
University College London
Alma Mater:Hartley University College (now University of Southampton)
Imperial College London
Academic Advisors:Jocelyn Field Thorpe
Doctoral Students:Ronald Gillespie
Ronald Sydney Nyholm[1]
Peter de la Mare
Thesis Title:Formation and stability of carbon rings
Thesis Year:1921
Known For:Organic reaction mechanisms
Cahn–Ingold–Prelog rules
Hughes–Ingold rules
Thorpe-Ingold effect
Signature:Ingold podp.jpg

Sir Christopher Kelk Ingold [2] (28 October 1893 – 8 December 1970) was a British chemist based in Leeds and London. His groundbreaking work in the 1920s and 1930s on reaction mechanisms and the electronic structure of organic compounds was responsible for the introduction into mainstream chemistry of concepts such as nucleophile, electrophile, inductive and resonance effects, and such descriptors as SN1, SN2, E1, and E2. He also was a co-author of the Cahn–Ingold–Prelog priority rules. Ingold is regarded as one of the chief pioneers of physical organic chemistry.[3] [4] [5]

Early life and education

Born in London to a silk merchant who died of tuberculosis when Ingold was five years old,[2] Ingold began his scientific studies at Hartley University College at Southampton (now Southampton University) taking an external BSc in 1913 with the University of London. He then joined the laboratory of Jocelyn Field Thorpe at Imperial College, London, with a brief hiatus from 1918-1920 during which he conducted research into chemical warfare and the manufacture of poison gas with Cassel Chemical at Glasgow.[6] Ingold received an MSc from the University of London and returned to Imperial College in 1920 to work with Thorpe.[7] He was awarded a PhD in 1918 and a DSc in 1921.

Academic career

In 1924 Ingold moved to the University of Leeds where he spent six years as Professor of Organic Chemistry working alongside his wife, Dr. Edith Hilda Ingold (Usherwood). He returned to London in 1930, and served for 24 years as head of the chemistry department at University College London, from 1937 until his retirement in 1961.

During his study of alkyl halides, Ingold found evidence for two possible reaction mechanisms for nucleophilic substitution reactions. He found that tertiary alkyl halides underwent a two-step mechanism (SN1) while primary and secondary[8] alkyl halides underwent a one-step mechanism (SN2). This conclusion was based on the finding that reactions of tertiary alkyl halides with nucleophiles were dependent on the concentration of the alkyl halide only. Meanwhile, he discovered that primary and secondary alkyl halides, when reacting with nucleophiles, depend on both the concentration of the alkyl halide and the concentration of the nucleophile.

Starting around 1926, Ingold and Robert Robinson carried out a heated debate on the electronic theoretical approaches to organic reaction mechanisms. See, for example, the summary by Saltzman.[9]

Ingold authored and co-authored 443 papers.[10] Notable students include Peter de la Mare, Ronald Gillespie and Ronald Nyholm.[11]

Honours

In 1920, Ingold was awarded the British Empire Medal (BEM) for his wartime research involving "great courage in carrying out work in a poisonous atmosphere, and risking his life on several occasions in preventing serious accidents," though he subsequently never discussed the award or this period in his life.[6]

Ingold was elected a Fellow of the Royal Society (FRS) in 1924.[12] He received the Longstaff Medal of the Royal Society of Chemistry in 1951, the Royal Medal of the Royal Society in 1952, and was knighted in 1958.

The chemistry department of University College London is now housed in the Sir Christopher Ingold building, opened in 1969.

Personal life

Ingold married Dr. Edith Hilda Ingold (Usherwood) in 1923. She was a fellow chemist with whom he collaborated. They had two daughters and a son, the chemist Keith Ingold.[13]

Death

Ingold died in London in 1970, aged 77.

Further reading

Dr. Malmberg's class: K.P.

External links

Notes and References

  1. Stanley E.. Livingstone. Nyholm, Sir Ronald Sydney (1917–1971). nyholm-sir-ronald-sydney-11269.
  2. Shoppee . C. W. . Charles Shoppee . 10.1098/rsbm.1972.0012 . Christopher Kelk Ingold. 1893-1970 . . 18 . 348–411. 1972 . free .
  3. Saltzman . M. D. . The development of physical organic chemistry in the United States and the United Kingdom: 1919–1939, parallels and contrasts . 10.1021/ed063p588 . Journal of Chemical Education . 63 . 7 . 588 . 1986 . 1986JChEd..63..588S .
  4. Book: Ingold, C. K. . Structure and Mechanism in Organic Chemistry . 1953 . Cornell University Press . Ithaca, New York . 0-8014-0499-1 . registration .
  5. Ingold, Christopher K. . Principles of an Electronic Theory of Organic Reactions . Chemical Reviews . 1934 . 15 . 2 . 238–274 . 10.1021/cr60051a003.
  6. Ridd . John . Historical Profile - Organic Pioneer . Chemistry World . 50–53. December 2008 .
  7. Ingold . C. K. . Christopher Kelk Ingold. Jocelyn Field Thorpe. 1872–1939 . 10.1098/rsbm.1941.0020 . . 3 . 10 . 530–544. 1941 . 769165. 178487429 .
  8. Absence of SN1 Involvement in the Solvolysis of Secondary Alkyl Compounds, T. J. Murphy, J. Chem. Educ.; 2009; 86(4) pp 519–24; (Article) doi: 10.1021/ed041p678
  9. Saltzman . M. D. . The Robinson-Ingold controversy: Precedence in the electronic theory of organic reactions . 10.1021/ed057p484 . Journal of Chemical Education . 57 . 7 . 484 . 1980 . 1980JChEd..57..484S .
  10. Saltzman, Martin D. . C. K. Ingold's Development of the Concept of Mesomerism . Bulletin for the History of Chemistry . 1996 . 19 . 25–32 .
  11. Book: Cambie . R.C. . A century of chemistry at the University of Auckland 1883–1983 . Davis . B.R. . Percival . 1983 . Auckland . 35–37.
  12. https://www.rsc.org/images/Historical%20profile_tcm18-138980.pdf Chemistry World, Organic Pioneer, published December 2008
  13. Book: Nye, Mary Jo . Mary Jo Nye . From Chemical Philosophy to Theoretical Chemistry . 1994 . University of California Press . 197–198 . 978-0-520-08210-6.