Difference between revisions of "Lead oxychloride"

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File:Yellow PPL 1000x.JPG|thumb|lead oxychloride, PPL, 1000x
 
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File:Yellow XPL 1000x.JPG|thumb|lead oxychloride showing anomalous violet-blues, XPL, 1000x
File:Reid House RE 38 200x.JPG|thumb|RE38, bright yellow paint (for graining scheme) containing patent yellow, cross-section, visible light, 200x
 
File:RE38 gen2 yellow PPL 1000x.JPG|thumb|RE38, patent yellow particles amongst other pigments in dispersion of yellow paint, PPL, 1000x
 
File:RE38 gen2 yellow XPL 1000x.JPG|thumb|RE38, patent yellow particles amongst other pigments in dispersion of yellow paint, XPL, 1000x
 
 
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Revision as of 10:57, 25 March 2022

Coffeepot, star motif in center contains lead oxychloride (Colonial Williamsburg Foundation 1979.808.13)
Patent Yellow Advertisement, Continental Journal, June 3, 1784, Boston

Description

A strong yellow pigment that was also called Turner's yellow. Lead oxychloride was discovered in 1770 by Scheele but not patented until 1781 by J. Turner in England. Turner's yellow was made by mixing powdered lead chloride with lead carbonate then fusing. This yellow pigment was used for a short time in oil paints, but its sensitivity to light and sulfur fumes limited its use and it was replaced by chrome yellow pigments.

Synonyms and Related Terms

hydrated lead chloride; patent yellow (PbCl2.5-7PbO); Montpelier yellow; Kassel yellow; mineral yellow; Vernona yellow; Cassel yellow (PbCl2-7PbO); Turner's yellow

Composition PbCl2.5-7PbO (patent yellow)

Microscopic Characteristics

In PPL, particles have a pale to medium lemon-yellow color with moderate to high relief. The particle size distribution is typically very coarse, with larger particles measuring as large as 15 microns. Smaller particles can appear shard-like, sometimes with conchoidal fracture, while larger particles can appear somewhat platy with a distinctive shallow stair-step pattern along some edges. RI > 1.662. In XPL, this pigment is reported (Eastaugh 693) as being highly birefringent with third and fourth order colors observed, but many particles have low first order birefringence, or appear dark with a yellow birefringence along the grain boundaries. Distinctively, some particles may show blue/violet interference colors.

Risks

Turns black when exposed to water, UV light and sulfur fumes.

Additional Images

  • lead oxychloride, PPL, 1000x

  • lead oxychloride showing anomalous violet-blues, XPL, 1000x

Resources and Citations

  • Ralph Mayer, A Dictionary of Art Terms and Techniques, Harper and Row Publishers, New York, 1969 (also 1945 printing)
  • Susan E. Schur, Conservation Terminology: A review of Past & Current Nomenclature of Materials, Technology and Conservation, Spring (p.34-39); Summer (p.35-38); Fall (p.25-36), 1985
  • R.D. Harley, Artists' Pigments c. 1600-1835, Butterworth Scientific, London, 1982
  • R. Newman, E. Farrell, 'House Paint Pigments', Paint in America , R. Moss ed., Preservation Press, New York City, 1994
  • Thomas B. Brill, Light Its Interaction with Art and Antiquities, Plenum Press, New York City, 1980 Comment: first prepared in 1775
  • The Dictionary of Art, Grove's Dictionaries Inc., New York, 1996 Comment: "Pigments" (gives date of 1781 for patent)
  • Nicholas Eastaugh, Valentine Walsh, Tracey Chaplin, Ruth Siddall, Pigment Compendium, Elsevier Butterworth-Heinemann, Oxford, 2004

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