Jöns Jacob Berzelius
Baron Jöns Jacob Berzelius (Swedish: [jœns ˈjɑ̌ːkɔb bæˈʂěːlɪɵs]; by himself and his contemporaries named only Jacob Berzelius, 20 August 1779 – 7 August 1848) was a Swedish chemist. Berzelius is considered, along with Robert Boyle, John Dalton, and Antoine Lavoisier, to be one of the founders of modern chemistry. Berzelius became a member of the Royal Swedish Academy of Sciences in 1808 and served from 1818 as its principal functionary. He is known in Sweden as the "Father of Swedish Chemistry". Berzelius Day is celebrated on 20 August in honour of him.
Jöns Jacob Berzelius
|Born||20 August 1779|
Väversunda, Östergötland, Sweden
|Died||7 August 1848 68) (aged|
|Alma mater||Uppsala University|
|Known for||Atomic weights|
|Awards||Copley medal (1836)|
|Doctoral advisor||Johann Afzelius|
|Doctoral students||James Finlay Weir Johnston|
Although Berzelius began his career as a physician, his enduring contributions were in the fields of electrochemistry, chemical bonding and stoichiometry. In particular, he is noted for his determination of atomic weights and his experiments that led to a more complete understanding of the principles of stoichiometry, which is the branch of chemistry pertaining to the quantitative relationships between elements in chemical compounds and chemical reactions and that these occur in definite proportions. This understanding came to be known as the "Law of Constant Proportions".
Berzelius was a strict empiricist, expecting that any new theory must be consistent with the sum of contemporary chemical knowledge. He developed improved methods of chemical analysis, which were required to develop the basic data in support of his work on stoichiometry. He investigated isomerism, allotropy, and catalysis, phenomena that owe their names to him. Berzelius was among the first to articulate the differences between inorganic compounds and organic compounds. Among the many minerals and elements he studied, he is credited with discovering cerium and selenium, and with being the first to isolate silicon and thorium. Following on his interest in mineralogy, Berzelius synthesized and chemically characterized new compounds of these and other elements.
Berzelius demonstrated the use of an electrochemical cell to decompose certain chemical compounds into pairs of electrically opposite constituents. From this research, he articulated a theory that came to be known as electrochemical dualism, contending that chemical compounds are oxide salts, bonded together by electrostatic interactions. This theory, while useful in some contexts, came to be seen as insufficient. Berzelius's work with atomic weights and his theory of electrochemical dualism led to his development of a modern system of chemical formula notation that showed the composition of any compound both qualitatively and quantitatively. His system abbreviated the Latin names of the elements with one or two letters and applied superscripts to designate the number of atoms of each element present in the compound. Later, chemists changed to use of subscripts rather than superscripts.
Early life and education
Berzelius was born in the parish of Väversunda in Östergötland in Sweden. His father Samuel Berzelius was a school teacher in the nearby city of Linköping, and his mother Elizabeth Dorothea Sjösteen was a homemaker. His parents were both from families of church pastors. Berzelius lost both his parents at an early age. His father died in 1779, after which his mother married a pastor named Anders Eckmarck, who gave Berzelius a basic education including knowledge of the natural world. Following the death of his mother in 1787, relatives in Linköping took care of him. There he attended the school today known as Katedralskolan. As a teenager, he took a position as a tutor at a farm near his home, during which time he became interested in collecting flowers and insects and their classification.
Berzelius later enrolled as a medical student at Uppsala University, from 1796 to 1801. Anders Gustaf Ekeberg, the discoverer of tantalum, taught him chemistry during this time. He worked as an apprentice in a pharmacy, during which time he also learned practical matters in the laboratory such as glassblowing. On his own during his studies, he successfully repeated the experimentation conducted by Swedish chemist Carl William Scheele which led to Scheele's discovery of oxygen. He also worked with a physician in the Medevi mineral springs. During this time, he conducted an analysis of the water from this source. Additionally as part of his studies, in 1800, Berzelius learned about Alessandro Volta's electric pile, the first device that could provide a constant electric current (i.e., the first battery). He constructed a similar battery for himself, consisting of alternating disks of copper and zinc, and this was his initial work in the field of electrochemistry.
As thesis research in his medical studies, he examined the influence of galvanic current on several diseases. This line of experimentation produced no clear-cut evidence for such influence. Berzelius graduated as a medical doctor in 1802. He worked as a physician near Stockholm until the chemist and mine-owner Wilhelm Hisinger recognized his abilities as an analytical chemist and provided him with a laboratory.
In 1807, Berzelius was appointed professor in chemistry and pharmacy at the Karolinska Institute. Between 1808 and 1836, Berzelius worked together with Anna Sundström, who acted as his assistant and was the first female chemist in Sweden.
In 1808, he was elected a member of the Royal Swedish Academy of Sciences. At this time, the Academy had been stagnating for several years, since the era of romanticism in Sweden had led to less interest in the sciences. In 1818, Berzelius was elected the Academy's secretary and held the post until 1848. During Berzelius' tenure, he is credited with revitalising the Academy and bringing it into a second golden era (the first being the astronomer Pehr Wilhelm Wargentin's period as secretary from 1749 to 1783). He was elected a Foreign Honorary Member of the American Academy of Arts and Sciences in 1822. In 1827, he became correspondent of the Royal Institute of the Netherlands, and in 1830 associate member. In 1837, he was elected a member of the Swedish Academy, on chair number 5.
In 1818, Berzelius had a nervous breakdown, said to be due to the stress of his work. The medical advice he received was to travel and take vacation. However, during this time, Berzelius traveled to France to work in the chemical laboratories of Claude Louis Berthollet.
He died on 7 August 1848 at his home in Stockholm, where he had lived since 1806. He is buried in the Solna Cemetery.
Law of definite proportions
Soon after arriving in Stockholm, Berzelius wrote a chemistry textbook for his medical students, Lärboki Kemien, which was his first significant scientific publication. He had conducted experimentation, in preparation for writing this textbook, on the compositions of inorganic compounds, which was his earliest work on definite proportions. In 1813, he published an essay on the proportions of elements in compounds. The essay commenced with a general description, introduced his new symbolism, examined all the known elements, included a table of specific weights, and finished with a selection of compounds written in his new formalism. In 1818, he compiled a table of relative atomic weights, where oxygen was set to 100, and which included all of the elements known at the time. This work provided evidence in favour of the atomic theory proposed by John Dalton: that inorganic chemical compounds are composed of atoms of different elements combined in whole number amounts. In discovering that atomic weights are not integer multiples of the weight of hydrogen, Berzelius also disproved Prout's hypothesis that elements are built up from atoms of hydrogen.:682–683 Berzelius's last revised version of his atomic weight tables was first published in a German translation of his Textbook of Chemistry in 1826.
In order to aid his experiments, he developed a system of chemical notation in which the elements composing any particular chemical compound were given simple written labels—such as O for oxygen, or Fe for iron—with their proportions in the chemical compound denoted by numbers. Berzelius thus invented the system of chemical notation still used today, the main difference being that instead of the subscript numbers used today (e.g., H2O or Fe2O3), Berzelius used superscripts (H2O or Fe2O3).
Discovery of elements
Berzelius is credited with discovering the chemical elements cerium and selenium and with being the first to isolate silicon and thorium. Berzelius discovered cerium in 1803 and selenium in 1817. Berzelius discovered how to isolate silicon in 1824, and thorium in 1824. Students working in Berzelius's laboratory also discovered lithium, lanthanum, and vanadium.
Berzelius discovered silicon by repeating an experiment performed by Gay-Lussac and Thénard. In the experiment, Berzelius reacted silicon tetrafluoride with potassium metal and then purified its product by washing it until it became a brown powder. Berzelius recognized this brown powder as the new element of silicon, which he called silicium, a name proposed earlier by Davy.
Berzelius was the first to isolate zirconium in 1824, but pure zirconium was not produced until 1925, by Anton Eduard van Arkel and Jan Hendrik de Boer.
New chemical terms
Berzelius is credited with originating the chemical terms "catalysis", "polymer," "isomer," "protein" and "allotrope," although his original definitions in some cases differ significantly from modern usage. As an example, he coined the term "polymer" in 1833 to describe organic compounds which shared identical empirical formulas but which differed in overall molecular weight, the larger of the compounds being described as "polymers" of the smallest. At this time the concept of chemical structure had not yet been developed so that he considered only the numbers of atoms of each element. in this way, he viewed for example glucose (C6H12O6) as a polymer of formaldehyde (CH2O), even though we now know that glucose is not a polymer of the monomer formaldehyde.
Biology and organic chemistry
Berzelius was the first person to make the distinction between organic compounds (those containing carbon), and inorganic compounds. In particular, he advised Gerardus Johannes Mulder in his elemental analyses of organic compounds such as coffee, tea, and various proteins. The term protein itself was coined by Berzelius, after Mulder observed that all proteins seemed to have the same empirical formula and came to the erroneous conclusion that they might be composed of a single type of very large molecule. The term is derived from the Greek, meaning "of the first rank", and Berzelius proposed the name because proteins were so fundamental to living organisms.
In 1808, Berzelius discovered that lactic acid occurs in muscle tissue, not just in milk. He also determined that lactic acid occurs in two different optical isomers.
Berzelius stated in 1810 that living things work by some mysterious "vital force", a hypothesis called vitalism. Vitalism had first been proposed by prior researchers, although Berzelius contended that compounds could be distinguished by whether they required any organisms in their manufacture (organic compounds) or whether they did not (inorganic compounds). However, in 1828, Friedrich Wöhler accidentally obtained urea, an organic compound, by heating ammonium cyanate. This showed that an organic compound such as urea could be prepared synthetically and not exclusively by living organisms. Berzelius corresponded with Wöhler on the urea synthesis findings. However, the notion of vitalism continued to persist, until further work on abiotic synthesis of organic compounds provided overwhelming evidence against vitalism.
- Berzelius und Liebig (in German). München: Lehmann. 1893.
- Letters of Jöns Jakob Berzelius and Christian Friedrich Schönbein. London: Williams & Norgate. 1900.
- Selbstbiographische Aufzeichnungen (in German). Leipzig: Johann Ambrosius Barth. 1903.
Relations with other scientists
Berzelius was a prolific correspondent with leading scientists of his time, such as Gerardus Johannes Mulder, Claude Louis Berthollet, Humphry Davy, Friedrich Wöhler, Eilhard Mitscherlich and Christian Friedrich Schönbein.
In 1812, Berzelius traveled to London, England, including Greenwich to meet with prominent British scientists of the time. These included Humphry Davy, chemist William Wollaston, physician-scientist Thomas Young, astronomer William Herschel, chemist Smithson Tennant, and inventor James Watt, among others. Berzelius also visited Davy's laboratory. After his visit to Davy's laboratory, Berzelius remarked, "A tidy laboratory is a sign of a lazy chemist."
Humphry Davy in 1810 proposed that chlorine is an element. Berzelius refuted this claim because of his belief that all acids were based on oxygen, and HCl contains no oxygen and so could not be an element, in Berzelius's perception. However, in 1812, Bernard Courtois proved that the isoelectronic substance iodine is an element. This finding resolved Berzelius's disagreement. Berzelius continued his investigations into the chemistry of chlorine during his stay in Claude Louis Berthollet's laboratory.
Honors and recognition
In 1820 he was elected a member of the American Philosophical Society.
The Royal Society of London gave Berzelius the Copley Medal in 1836 with the citation "For his systematic application of the doctrine of definite proportions to the analysis of mineral bodies, as contained in his Nouveau Systeme de Mineralogie, and in other of his works."
In 1852, Stockholm, Sweden, built a public park and statue, both to honor Berzelius. Berzeliusskolan, a school situated next to his alma mater, Katedralskolan, is named for him.
In 1898, the Swedish Academy of Sciences opened the Berzelius Museum in honor of Berzelius. The holdings of the museum included many items from his laboratory. The museum was opened on the occasion of fiftieth anniversary of Berzelius's death. Invitees at the ceremony marking the occasion included scientific dignitaries from eleven European nations and the United States, many of whom gave formal addresses in honor of Berzelius. The Berzelius Museum was later moved to the observatory that is part of the Swedish Academy of Sciences.
The Berzelius secret society at Yale University is named in his honor.
- KI:s grundare Jöns Jacob Berzelius (in Swedish). Karolinska Institute. 9 September 2013. Event occurs at 00:42. Retrieved 5 October 2019 – via YouTube.
- "Svenska akademien, ledamotsregister (Swedish Akademy, register of members)" (in Swedish). Retrieved 19 November 2020.
- "Jöns Jacob Berzelius". Encyclopædia Britannica Online. Retrieved 3 August 2008.
- "Berzelius Day honoured on YouTube". Archived from the original on 1 September 2012. Retrieved 20 August 2012.
- Marshall, James L.; Marshall, Virginia R. "Rediscovery of the Elements: Jöns Jacob Berzelius" (PDF). chem.unt.edu. University of North Texas Department of Chemistry. Retrieved 21 December 2019.
- "Jöns Jakob Berzelius". sciencehistory.org. Science History Institute. June 2016. Retrieved 20 December 2019.
- "Jons Jacob Berzelius – discoverer of thorium&cerium elements". worldofchemicals.com. World of Chemicals. 2015. Retrieved 21 December 2019.
- Berzelius, Jöns Jakob. Jakob Berzelius: Selbstbiographische Aufzeichnungen. Forgotten Books. ISBN 1-332-58610-4.
- "Jacob Berzelius". famousscientists.org. Famous Scientists. Retrieved 27 December 2019.
- Kyle, Robert A.; Steensma, David P. (May 2018). "Jöns Jacob Berzelius – A Father of Chemistry". Mayo Clinic Proceedings. 93 (5): e53–e54. doi:10.1016/j.mayocp.2017.07.020. PMID 29728209. Retrieved 27 December 2019.
- "Karolinska Institutet 200 År – 1810–2010".
- Centre for History of Science at the Royal Swedish Academy of Sciences: KVA och Berzelius Archived 19 August 2007 at the Wayback Machine, accessed 23 May 2009 (in Swedish)
- "Book of Members, 1780–2010: Chapter B" (PDF). American Academy of Arts and Sciences. Retrieved 24 June 2011.
- "Jöns Jacob Berzelius (1779–1848)". Royal Netherlands Academy of Arts and Sciences. Retrieved 19 July 2015.
- "Berzelius, Johan Jakob, Baron". Chamber's Biographical Dictionary 1897.
- Berzelius, Jacob (1813), Thomson, Thomas (ed.), "Essay on the Cause of Chemical Proportions, and on some Circumstances relating to them: together with a short and easy Method of expressing them", Annals of Philosophy, London: Robert Baldwin, II & III, pp. 51–62, 93–106, 244–256, 353–364, 443–454, retrieved 13 December 2014 also Vol III
- NationalEncyklopedin. Höganäs, Sweden: Bra Böcker AB. 1990. p. 484. ISBN 91-7024-619-X.
- John L. Heilbron (2003). The Oxford Companion to the History of Modern Science. Oxford University Press. pp. 683–. ISBN 978-0-19-974376-6.
- "Jöns Jacob Berzelius | Swedish chemist". Encyclopedia Britannica. Retrieved 22 February 2018.
- Berzelius 1813, Vol III, pp 51–52.
- "Cerium". Royal Society of Chemistry. Retrieved 1 January 2020.
- "Selenium". Royal Society of Chemistry. Retrieved 1 January 2020.
- "Silicon". Royal Society of Chemistry. Retrieved 1 January 2020.
- "Thorium". Royal Society of Chemistry. Retrieved 1 January 2020.
- "Jöns Jakob Berzelius (1779–1848)". Nature. 162 (4110): 210. 1948. Bibcode:1948Natur.162R.210.. doi:10.1038/162210b0.
- Blamire, John. "Jons Jacob Berzelius". brooklyn.cuny.edu. City University of New York. Retrieved 28 December 2019.
- Berzelius, Jons Jacob (1825). "On the mode of obtaining silicium, and on the characters and properties of that substance". The Philosophical Magazine and Journal. 65: 254–267. doi:10.1080/14786442508628433 – via Google Books.
- Wilton, Dave. "Silicon". wordorigins.org. Retrieved 30 December 2019.
- "Zirconium". Royal Society of Chemistry. Retrieved 1 January 2020.
- Although Bezelius introduced the term catalysis he did not introduce the concept, which was well understood by Elizabeth Fulhame a generation earlier.
- Thomas, John Meurig (2013). "Sir Humphry Davy: Natural Philosopher, Discoverer, Inventor, Poet, and Man of Action". Proceedings of the American Philosophical Society. 157 (2): 143–163. JSTOR 24640238.
- Jensen, William B. (2008). "The Origin of the Polymer Concept". Journal of Chemical Education. 85 (5): 624. Bibcode:2008JChEd..85..624J. doi:10.1021/ed085p624.
- Percec, Virgil; Suter, Ulrich (2014). Hierarchical Macromolecular Structures: 60 Years after the Staudinger Nobel Prize I. Springer. p. 66. ISBN 978-3-319-01137-0.
- Tammi, Martti T. "Searching for protein composition and function". bioinformaticshome.com. Retrieved 30 December 2019.
- Watson, Cecil J. (1977). Berk, Paul D. (ed.). International Symposium on Chemistry and Physiology of Bile Pigments. U.S. Department of Health, Education, and Welfare, Public Health Service, National Institutes of Health. p. 4.
- Cornish-Bawden, Athel, ed. (1997), New Beer in an Old Bottle. Eduard Buchner and the Growth of Biochemical Knowledge, Universitat de València, pp. 72–73, ISBN 978-84-370-3328-0
- Wilkinson, Ian (2002). "History of Clinical Chemistry". The Journal of the International Federation of Clinical Chemistry and Laboratory Medicine. 13 (4): 114–118. doi:10.1042/bst0120596. PMC 6208063. PMID 6208063.
- Rocke, Alan J. (1993). University of California Press (ed.). The Quiet Revolution: Hermann Kolbe and the Science of Organic Chemistry. Berkeley. pp. 239–. ISBN 978-0-520-08110-9.
- Biographical Dictionary of Scientists ed. T. I. Williams. London: A. & C. Black, 1969; pp. 55–56
- "APS Member History". search.amphilsoc.org. Retrieved 5 April 2021.
- Almanach royal officiel de Belgique/1841 p. 118
- Orden Pour le Mérite für Wissenschaften und Künste (1975). Die Mitglieder des Ordens. 1 1842–1881 (PDF). Berlin: Gebr. Mann Verlag. p. 6. ISBN 3-7861-6189-5.
- "Handbook of mineralogy Berzelianite" (PDF).
- "Berzelianite: Berzelianite mineral information and data". www.mindat.org. Retrieved 23 October 2016.
- Jorpes, Johan Erik (1970). Jac. Berzelius: His Life and Work. University of California Press. p. 121. ISBN 978-0-520-01628-6.
- "Sweden – Circa 1939: stamp printed by Sweden, shows Jons Jakob Berzelius". 123rf.com. 123RF. Retrieved 26 December 2019.
- Jaime Wisniak (2000). "Jöns Jacob Berzelius A Guide to the Perplexed Chemist". The Chemical Educator. 5 (6): 343–350. doi:10.1007/s00897000430a. S2CID 98774420.
- Paul Walden (1947). "Zum 100. Todestag von Jöns Jakob Berzelius am 7. August 1948". Naturwissenschaften. 34 (11): 321–327. Bibcode:1947NW.....34..321W. doi:10.1007/BF00644137. S2CID 36477981.
- Holmberg, Arne (1933) Bibliografi över J. J. Berzelius. 2 parts in 5 vol. Stockholm: Kungl. Svenska Vetenskapsakademien, 1933–67. 1. del och suppl. 1–2. Tryckta arbeten av och om Berzelius. 2. del och suppl. Manuskript
- Jorpes, J. Erik (1966) Jac. Berzelius – his life and work; translated from the Swedish manuscript by Barbara Steele. Stockholm: Almqvist & Wiksell, 1966. (Reissued by University of California Press, Berkeley, 1970 ISBN 0-520-01628-9)
- Leicester, Henry (1970–1980). "Berzelius, Jöns Jacob". Dictionary of Scientific Biography. 2. New York: Charles Scribner's Sons. pp. 90–97. ISBN 978-0-684-10114-9.
- Partington, J. R. (1964) History of Chemistry; vol. 4. London: Macmillan; pp. 142–77
|Library resources about |
Jöns Jacob Berzelius
|By Jöns Jacob Berzelius|
|Wikisource has the text of a 1911 Encyclopædia Britannica article about Jöns Jacob Berzelius.|
|Wikimedia Commons has media related to Jöns Jacob Berzelius.|
|Wikiquote has quotations related to: Jöns Jacob Berzelius|
- List of works by Berzelius (301 items as of access date 2011-12-29)
- Online works at Project Runeberg (in Latin)
- Works by Jöns Jakob Berzelius at Project Gutenberg
- Works by or about Jöns Jacob Berzelius at Internet Archive
- Online correspondence between Berzelius and Sir Humphry Davy on Wikisource (in English and French)
- Online works on Gallica (in French and Swedish) (27 items as of access date 2011-12-29)
- Nordisk familjebok (1905), band 3, s. 90–96 (in Swedish)
- Poliakoff, Martyn. Jöns Jacob Berzelius. University of Nottingham: The Periodic Table of Videos.
- Digital edition of "Lehrbuch der Chemie" 1823/1824 by the University and State Library Düsseldorf
- Digital edition of "Das saidschitzer Bitterwasser : chemisch untersucht" 1840 by the University and State Library Düsseldorf
- Digital edition of "Aus Jac. Berzelius' und Gustav Magnus' Briefwechsel in den Jahren 1828–1847" 1900 by the University and State Library Düsseldorf
- . The American Cyclopædia. 1879.
Carl von Rosenstein
| Swedish Academy,
Seat No. 5
Johan Erik Rydqvist