Lead antimonate yellow

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Jaune antimoine

Description

A synthetic pigment commonly called Naples yellow, which is produced in colors ranging from lemon yellow for the very pure pigment to darker shades. Lead antimonate yellow pigments with a greenish, pinkish orange, or reddish tinge have been produced; the color depends on the method and temperature of manufacture. It has been used as a colorant for glass, ceramic tiles, and paint for at least 3500 years. Lead antimonate yellow has been identified in objects from Egyptian, Mesopotamian, Babylonian, Greek, Roman, and Celtic cultures. In Western European art, Naples yellow has been used in Majolica pottery glazes since about 1500 and in paintings dating from about 1600. It was most frequently used during the period 1750-1850 after which it was gradually replaced by other yellow pigments. Naples yellow is a synthetic pigment with the chemical formula, Pb2Sb2O7. It has a crystal structure similar to the mineral bindheimite; the naturally occurring mineral is not used as a pigment however. Since other yellowish minerals occur on Mount Vesuvius near Naples it seems plausible that this association might explain the name "Naples Yellow." There is yet no documentary or analytical evidence to support this hypothesis. The raw materials and manufacturing processes for making zalulino (another name for lead antimonate yellow) were first published in 1556 by Cipriano Piccolpasso of Castel Durante, Italy, in his treatise Le Tre Libri dell'Arte del Vasaio (The Three Books of the Potter's Art). In 1758, Giambattista Passeri published very similar recipes for the pigment giallolino. Piccolpasso's recipes call for heating a mixture of Lead, Antimony, Lees, and Salt. Scientific studies of Naples yellow include those published in France by Auguste-Denis Fougeroux de Bondaroy (1766) and Léonor Mérimée (1839) and in Switzerland by Karl Brunner (1837). Before Naples yellow came into widespread use in the 18th century, Lead-tin yellow was the pigment most used by artists in Europe starting in about 1300. Lead-tin yellow was rediscovered in 1941 by Richard Jacobi of the Doerner Institut, Munich using x-ray diffraction analysis. Until then, it was not generally understood that there were at lease three distinct yellow pigments composed of lead compounds: lead antimonate yellow, lead-tin yellow type I and lead-tin yellow type II. More recently, scientists have found pigments which made of lead-antimony-tin oxide compounds. Genuine Naples yellow continued to be sold during the 20th century but the name "Naples Yellow" came to indicate a color shade that is commercially produced by mixing together other pigments, such as Cadmium yellow, Zinc white, and Venetian red. Naples yellow is lightfast and chemically stable, but may darken with high temperatures, or exposure to Iron compounds or Sulfur fumes.

Synonyms and Related Terms

Naples yellow; Pigment Yellow 41; CI 77588; bindheimite (mineral); jaune d'antimoine (Fr.); antimonate de plomb jaune (Fr.); jaune de Naples (Fr.); Antimongelb (Deut.); Bleintimoniat (Deut.); Neapelgelb (Deut.); giallo di Napoli (It.); amarillo de Nápoles (Esp.); Napels geel (Ned.); amarelo de antimónio e chumbo (Port.); giallolino; giallorino; antimony yellow; zalulino; brilliant yellow; jaune brilliant; antimoniate of lead

XRD

PIG294.jpg

SEM

F289sem.jpg

EDS

F289edsbw.jpg


Risks

  • Toxic by ingestion and inhalation.
  • Carcinogen, teratogen, and suspected mutagen.

Physical and Chemical Properties

Insoluble in water and dilute acids. Can turn black in the presence of sulfur or iron.

Composition Pb2Sb2O7
CAS 13510-89-9
Density 6.58 g/ml
Refractive Index 2.01 - 2.28

Resources and Citations

  • I.N.M.Wainwright, J.M.Taylor, R.D.Harley, "Lead Antimonate Yellow", Artists Pigments, Volume 1, R. Feller (ed.), Cambridge University Press: Cambridge, 1986. Comment: "..highest popularity in European art between approx. 1750-1850.."; formula:Pb2Sb2O7
  • J. Dik, E. Hermens, R. Peschar, H. Schenk, 'Early production recipes for lead antimonate yellow in Italian art', Archaeometry, 47, 2005, 593-607.Record content reviewed by EU-Artech, January 2008.
  • Ian Wainwright, Contributed information; December 2007.
  • R. J. Gettens, G.L. Stout, Painting Materials, A Short Encyclopaedia, Dover Publications, New York, 1966 Comment: ref. index = 2.01-2.88
  • Reed Kay, The Painter's Guide To Studio Methods and Materials, Prentice-Hall, Inc., Englewood Cliffs, NJ, 1983
  • Ralph Mayer, A Dictionary of Art Terms and Techniques, Harper and Row Publishers, New York, 1969 (also 1945 printing)
  • Richard S. Lewis, Hawley's Condensed Chemical Dictionary, Van Nostrand Reinhold, New York, 10th ed., 1993
  • Michael McCann, Artist Beware, Watson-Guptill Publications, New York City, 1979
  • R.D. Harley, Artists' Pigments c. 1600-1835, Butterworth Scientific, London, 1982 Comment: formula: Pb3(SbO4)2
  • Dictionary of Building Preservation, Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996
  • The Merck Index, Martha Windholz (ed.), Merck Research Labs, Rahway NJ, 10th edition, 1983 Comment: entry 5412
  • Thomas B. Brill, Light Its Interaction with Art and Antiquities, Plenum Press, New York City, 1980 Comment: ..first prepared in 1758.
  • The Dictionary of Art, Grove's Dictionaries Inc., New York, 1996 Comment: "Pigments"

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