Elizabeth Fulhame

Elizabeth Fulhame (fl. 1794) was a Scottish chemist who invented the concept of catalysis and discovered photoreduction. She describes catalysis as a process at length in her 1794 book An Essay On Combustion with a View to a New Art of Dying and Painting, wherein the Phlogistic and Antiphlogistic Hypotheses are Proved Erroneous. The book relays in painstaking detail her experiments with oxidation-reduction reactions.[1] In 1798, the book was translated into German in 1798 by Augustin Gottfried Ludwig Lentin as Versuche über die Wiederherstellung der Metalle durch Wasserstoffgas. In 1810, it was published in the United States, to much critical acclaim.[2] That same year, Fulhame was made an honorary member of the Philadelphia Chemical Society.[3] Thomas P. Smith applauded her work, stating that "Mrs. Fulham has now laid such bold claims to chemistry that we can no longer deny the sex the privilege of participating in this science also."[4]

Personal life

Elizabeth Fulhame published under her married name, as Mrs. Fulhame. She was married to Thomas Fulhame, an Irish-born physician who had attended the University of Edinburgh and studied puerperal fever.[5] Elizabeth herself is believed to have been Scottish.[6][7] Sir Benjamin Thompson, Count Rumford, referred to her as "the ingenious and lively Mrs. Fulhame", but this opinion may reflect simply the style of her book.[8]

Work

Mrs. Fulhame's work began with her interest in finding way of staining cloth with heavy metals under the influence of light. She originally considered calling her work An Essay on the Art of making Cloths of Gold, Silver, and other Metals, by chymical processes, but considering the "imperfect state of the art", decided to select a title reflecting the broader implications of her experiments.[9]:viii-ix

"The possibility of making cloths of gold, silver, and other metals, by chymical processes, occurred to me in the year 1780: the project being mentioned to Doctor Fulhame, and some friends, was deemed improbable. However, after some time, I had the satisfaction of realizing the idea, in some degree, by experiment." [9]:iii

She was apparently encouraged to publish an account of her fourteen years of research as a result of meeting Sir Joseph Priestley in 1793.[10] Elizabeth Fulhame studied the experimental reduction of metallic salts in a variety of states (aqueous solution, dry state, and sometimes an ether or alcohol solution) by exposing them to the action of various reducing agents.[11] The metal salts she examined included gold, silver, platinum, mercury, copper, and tin. As reducing agents, she experimented with hydrogen, gas, phosphorus, potassium sulfide, hydrogen sulfide, phosphine, charcoal, and light. She discovered a number of chemical reactions by which metal salts could be reduced to pure metals.[4] Rayner-Canham considers her most important contribution to chemistry to be the discovery that metals could be processed through acqueous chemical reduction at room temperature, as an alternative to smelting at high temperatures.[4]

Her theoretical work on catalysis was "a major step in the history of chemistry",[12] predating both Jöns Jakob Berzelius and Eduard Buchner. She proposed, and demonstrated through experiment, that many oxidation reactions occur only in the presence of water, that they directly involve water, and that water is regenerated and is detectable at the end of the reaction. Further, she proposed "recognizably modern mechanisms"[12] for those reactions, and may have been the first scientist to do so. The role of oxygen, as she describes it, differs significantly from other theories of the time. Based on her experiments, she disagreed with some of the conclusions of Antoine Lavoisier as well as with the phlogiston theorists that he critiqued.[4][13] Her research could seen as a precursor to the work of Jöns Jakob Berzelius, however Fulhame focused specifically on water rather than heavy metals.

Further, Schaaf considers her work on silver chemistry to be a landmark in the birth and early history of photography.[14][15] Fulhame's work on the role of light sensitive chemicals (silver salts) on fabric, predates Thomas Wedgwood's more famous photogram trials of 1801. Fulhame did not, however, attempt to make "images" or representational shadow prints in the way Wedgwood did, but she did engage in photoreduction using light.

Reception

In addition to her book being republished in Germany and America, Fulhame's experiments were reviewed in several British magazines, and were positively commented on by Sir Benjamin Thompson, Count Rumford, and Sir John Herschel.[10]

Nonetheless, her work was lesser known than it could or should have been, according to the introduction of her book by her American editor in 1810. He credited "the pride of science, 'revolting against being ... taught by a female'".[2][16] Indeed, Fulhame acknowledges in her own introduction that the possessive climate of science during her historical moment balked at challenges to their "dictatorship of science" by new insight from "a woman," as recounted in a book chapter about her as the inventor of catalysis:

"But censure is perhaps inevitable: for some are so ignorant, that they grow sullen and silent, and are chilled with horror at the sight of anything that nears the semblance of learning, in whatever shape it may appear; and should be the spectre appear in the shape of a woman, the pangs which they suffer are truly dismal" Preface, Elizabeth Fulhame[9][17]

Fulhame published her experiments on reductions using water with metals in a book in the first place in order not to be "plagiarized." She also describes her book as possibly serving as "a beacon to future mariners" (e.g. women) taking up scientific inquiries. Sadly, Antoine Lavoisier died six months before the publication of her book and thus could not respond to her theory. Irish chemist William Higgins complained that she had ignored his work on the involvement of water in the rusting of iron, but magnanimously concluded "I read her book with great pleasure, and heartily wish that her laudible example may be followed by the rest of her sex."[4]:31 [2]

References

  1. Burwick, Frederick; Goslee, Nancy Moore; Hoeveler, Diane Long, eds. (2012). The encyclopedia of Romantic literature. Chichester, West Sussex [England]: Wiley-Blackwell. ISBN 9781405188104. Retrieved 2 March 2016.
  2. 1 2 3 Ogilvie, Marilyn Bailey (1986). Women in Science: Antiquity through the Nineteenth Century (4th print. ed.). Cambridge, Mass.: MIT Press. pp. 28–31. ISBN 978-0-262-65038-0.
  3. "Elizabeth Fulhame". The Human Touch of Chemistry. Retrieved 2 March 2016.
  4. 1 2 3 4 5 Rayner-Canham, Marelene; Rayner-Canham, Geoffrey (2001). Women in chemistry : their changing roles from alchemical times to the mid-twentieth century. Philadelphia: Chemical Heritage Foundation. pp. 28–31. ISBN 978-0941901277. Retrieved 2 March 2016.
  5. Cornish-Bowden, Athel (2012). Fundamentals of enzyme kinetics. Weinheim: Wiley-VCH. Retrieved 2 March 2016.
  6. Ewan, Elizabeth L., ed. (2006). The biographical dictionary of Scottish women : from the earliest times to 2004. Edinburgh: Edinburgh Univ. Press. p. 130. ISBN 9780748617135. Retrieved 2 March 2016.
  7. "PHLOGISTON: THE HEART OF ALL COMBUSTIBLE RESOURCES?". Hay Exhibits. Retrieved 2 March 2016.
  8. Rumford, Benjamin, Graf von (1875). The complete works of Count Rumford 4. Boston: American Academy of Arts and Sciences. p. 84. Retrieved 2 March 2016.
  9. 1 2 3 Fulhame, Elizabeth (1794). An essay on combustion, with a view to a new art of dying and painting. Wherein the phlogistic and antiphlogistic hypotheses are proven erroneous. London: Printed for the author, by J. Cooper. Retrieved 2 March 2016.
  10. 1 2 Batchen, Geoffrey (1997). Burning with desire : the conception of photography (First MIT Press paperback ed.). Cambridge, Mass.: MIT Press. p. 28. ISBN 9780262024273.
  11. Davenport, Derek; Ireland, Kathleen (1989). "The Ingenious, Lively and Celebrated Mrs. Fulhame and the Dyer's Hand" (PDF). Bulletin of the history of chemistry (5): 37–42. Retrieved 2 March 2016.
  12. 1 2 Laidler, Keith J.; Cornish-Bowden, Athel (1997). ""Elizabeth Fulhame and the discover of catalysis: 100 years before Buchner". In Cornish-Bowden, Athel. New beer in an old bottle : Eduard Buchner and the growth of biochemical knowledge (PDF). Valencia: Universitat de Valencia. pp. 123–126. ISBN 9788437033280. Retrieved 2 March 2016.
  13. Datta, N. C. (2005). The story of chemistry. Hyderabad: Universities Press. pp. 247–250. ISBN 9788173715303. Retrieved 2 March 2016.
  14. Schaaf, Larry J. (1990). ""The first fifty years of British photography, 1794-1844"". In Pritchard, Michael. Technology and art: the birth and early years of photography : the proceedings of the Royal Photographic Historical Group conference 1-3 September 1989. Bath: RPS Historical Group. pp. 9–18. ISBN 9780951532201.
  15. Schaaf, Larry J. (1992). Out of the shadows : Herschel, Talbot, & the invention of photography. New Haven: Yale University Press. pp. 23–25. ISBN 9780300057058.
  16. Linker, Jessica C. (April 2015). "The Pride of Science: Women and the politics of inclusion in 19th century Philadelphia" (PDF). Pennsylvania Legacies 15 (1): 6–11. doi:10.5215/pennlega.15.1.0006. Retrieved 2 March 2016.
  17. Fulhame, Elizabeth (1810). An essay on combustion, with a view to a new art of dying and painting : wherein the phlogistic and antiphlogistic hypotheses are proved erroneous. Philadelphia: Printed and sold by James Humphreys, corner of Second and Walnut-street. Retrieved 2 March 2016.



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