Antoine Lavoisier

Antoine-Laurent de Lavoisier
Born(1743-08-26)26 August 1743
Died8 May 1794(1794-05-08) (aged 50)
Paris, France
Cause of deathExecution by guillotine
Resting placeCatacombs of Paris
Alma materCollège des Quatre-Nations, University of Paris
Known for
Spouse
(m. 1771)
Scientific career
FieldsBiologist, chemist
Notable studentsÉleuthère Irénée du Pont
Signature

Antoine-Laurent de Lavoisier (/ləˈvwɑːzi/ lə-VWAH-zee-ay;[1][2][3] French: [ɑ̃twan lɔʁɑ̃ lavwazje]; 26 August 1743 – 8 May 1794),[4] also Antoine Lavoisier after the French Revolution, was a French nobleman and chemist who was central to the 18th-century chemical revolution and who had a large influence on both the history of chemistry and the history of biology.[5]

It is generally accepted that Lavoisier's great accomplishments in chemistry stem largely from his changing the science from a qualitative to a quantitative one. Lavoisier is most noted for his discovery of the role oxygen plays in combustion. He named oxygen (1778), recognizing it as an element, and also recognized hydrogen as an element (1783), opposing the phlogiston theory. Lavoisier helped construct the metric system, wrote the first extensive list of elements, and helped to reform chemical nomenclature. He predicted the existence of silicon (1787)[6] and discovered that, although matter may change its form or shape, its mass always remains the same. His wife and laboratory assistant, Marie-Anne Paulze Lavoisier, became a renowned chemist in her own right.

Lavoisier was a powerful member of a number of aristocratic councils, and an administrator of the Ferme générale. The Ferme générale was one of the most hated components of the Ancien Régime because of the profits it took at the expense of the state, the secrecy of the terms of its contracts, and the violence of its armed agents.[7] All of these political and economic activities enabled him to fund his scientific research. At the height of the French Revolution, he was charged with tax fraud and selling adulterated tobacco, and was guillotined despite appeals to spare his life in recognition of his contributions to science.

  1. ^ "Lavoisier, Antoine Laurent". Lexico UK English Dictionary. Oxford University Press. Archived from the original on 23 April 2021.
  2. ^ "Lavoisier". Collins English Dictionary. HarperCollins. Retrieved 30 July 2019.
  3. ^ "Lavoisier". Merriam-Webster.com Dictionary. Retrieved 30 July 2019.
  4. ^ (in French) Lavoisier, le parcours d'un scientifique révolutionnaire CNRS (Centre National de la Recherche Scientifique)
  5. ^ Schwinger, Julian (1986). Einstein's Legacy. New York: Scientific American Library. p. 93. ISBN 978-0-7167-5011-6.
  6. ^ In his table of the elements, Lavoisier listed five "salifiable earths" (i.e., ores that could be made to react with acids to produce salts (salis = salt, in Latin)): chaux (calcium oxide), magnésie (magnesia, magnesium oxide), baryte (barium sulfate), alumine (alumina, aluminium oxide), and silice (silica, silicon dioxide). About these "elements", Lavoisier speculates: "We are probably only acquainted as yet with a part of the metallic substances existing in nature, as all those which have a stronger affinity to oxygen than carbon possesses, are incapable, hitherto, of being reduced to a metallic state, and consequently, being only presented to our observation under the form of oxyds, are confounded with earths. It is extremely probable that barytes, which we have just now arranged with earths, is in this situation; for in many experiments it exhibits properties nearly approaching to those of metallic bodies. It is even possible that all the substances we call earths may be only metallic oxyds, irreducible by any hitherto known process." – from p. 218 of: Lavoisier with Robert Kerr, trans., Elements of Chemistry, ..., 4th ed. (Edinburgh, Scotland: William Creech, 1799). (The original passage appears in: Lavoisier, Traité Élémentaire de Chimie, ... (Paris, France: Cuchet, 1789), vol. 1, p. 174.)
  7. ^ Schama, Simon (1989). Citizens: A Chronicle of the French Revolution. Alfred A Knopf. p. 73.

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