John Meurig Thomas
Welsh scientist and educator (1932–2020) / From Wikipedia, the free encyclopedia
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Sir John Meurig Thomas FLSW FRS HonFREng HonFRSE FRMS (15 December 1932 – 13 November 2020[4]), also known as JMT,[5] was a Welsh scientist, educator, university administrator, and historian of science primarily known for his work on heterogeneous catalysis, solid-state chemistry, and surface and materials science.[6][7]
Sir John Meurig Thomas | |
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Born | (1932-12-15)15 December 1932[1] Gwendraeth Valley, Carmarthenshire, Wales |
Died | 13 November 2020(2020-11-13) (aged 87) |
Education | |
Awards |
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Scientific career | |
Institutions | |
Thesis | The significance of structure in carbon-gas reactions (1957) |
Doctoral advisor | Keble Sykes |
Website | www |
External videos | |
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"Can Selective Catalysts Deliver Clean Technology and Sustainability?", Sir John Meurig Thomas, 19 June 2012 | |
"Some of Tomorrow's Catalysts: Actual and Desired", Sir John Meurig Thomas, 27 May 2015 | |
"Sir John Meurig Thomas discusses Humphry Davy's development of the miner's safety lamp", The Royal Society, 31 March 2015 |
He was one of the founders of solid-state chemistry, starting with his work at the University of Wales, Bangor, in 1958 when he investigated the various ways in which dislocations influence the chemical, electronic and excitonic properties of a range of solids. He was one of the first to exploit electron microscopy as a chemical tool, especially to deduce active-site reactivities from the surface topography of many minerals and crystal hydrates. At the University of Aberystwyth (1969–1978) he elucidated the surface chemistry of diamond, clay minerals, metals and intercalates by pioneering UV and X-ray photoelectron spectroscopy. He also initiated the field of crystal engineering of organic molecules. As head of physical chemistry department at the University of Cambridge (1978–1986), then a separate department to chemistry, he used magic-angle-spinning NMR and high-resolution electron microscopy to characterize and determine the structures of zeolites and other nanoporous catalysts. As Fullerian Professor and Director of the Royal Institution and of the Davy–Faraday Research Laboratory, he utilized synchrotron radiation to characterize, in situ, new catalysts designed for green chemistry and clean technology.[8][9]: 6–7, 623–638
He was the recipient of many national and international awards; and, for his contribution to geochemistry, the mineral meurigite was named in his honour.[10] He was Master of Peterhouse, University of Cambridge (1993–2002), and was knighted in 1991 "for services to chemistry and the popularisation of science".[11][12]
Thomas authored more than 1200 scientific articles and several books,[13][14] including Michael Faraday and the Royal Institution: The Genius of Man and Place (1991),[15] Principles and Practice of Heterogeneous Catalysis (with W. John Thomas, 1997, 2014),[16][17] and Design and Applications of Single-Site Heterogeneous Catalysts: Contributions to Green Chemistry, Clean Technology and Sustainability (2012).[18][19]