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Maya blue

Material Pigment Instrumentation GC/MS Application Identification/I echnology Place Yucatan, Mexico Time Period Maya, ad 300-1500 [Pg.160]

Question How did the ancient Maya produce the pigment known as Maya Blue  [Pg.160]

Arnold, Dean E... lason R. Branden, Patrick Ryan Williams, Gary M. Feinman and J. P. Brown. 2008. The first direct evidence for the production of Maya Blue rediscovery of a technology. Antiquity S2 151 — 164. [Pg.160]

ChianeUi, R.R., M. Perez de 1. Roas. G. Meitzner, M. Sladati, G. Gerhault, A. Mehta, J, Pople, S. Fuentes, G.. Alonzo-Nunez, and L.A. Polette. 2005. Synchrotron and simulations techniques applied to problems in materials science catalysts and azul Maya pigments. Journal of Synchrotron Radiation 12 129-134. [Pg.160]

Chiari, G., R. Giustetto.. 1. Druzik. E. Doehne, and G. Ricchiardi. 2008. Pre-Columbian nanotechnology reconcihng the mysteries of the Maya blue pigment. Applied Physics A 90, 3-7. [Pg.160]

Tacaman, M. J., L. Rendon, J. Arenas, and M. C. Serra Puche (1996), Maya-Blue An ancient nanostructured material, Science 273, 223-225. [Pg.618]

The effect of the indigo/dehydroindigo attachment to palygorskite on the Maya Blue hue is illustrated in Eig. 3.27, where the spectra of indigo, dehydroindigo. [Pg.92]

Fig. 3.25 Maya blue painting from Calakmul, late classical period. Photograph by M Kuisa Vazquez de Agredos Pascual... Fig. 3.25 Maya blue painting from Calakmul, late classical period. Photograph by M Kuisa Vazquez de Agredos Pascual...
Fig. 3.27 Visible spectra for indigo (rhombs), dehydroindigo (squares), and a Maya Blue sample (triangles) from Calakmul, Late Preclassical period... Fig. 3.27 Visible spectra for indigo (rhombs), dehydroindigo (squares), and a Maya Blue sample (triangles) from Calakmul, Late Preclassical period...
Speciation techniques previously described allowed for estimating the mean de-hydroindigo/indigo ratio in Maya Blue samples, as well as its variation with the depth in palygorskite crystals [221], A maximum dehydroindigo proportion of 25-30% can be established from electrochemical measurements [221]. [Pg.94]

Sheppard AO (1962) Maya blue alternative hypothesis. Am Antiq 27 565-566. [Pg.150]

Van Olphen H (1967) Maya blue a clay mineral-organic pigment Science 154 465-467. Kleber R, Masschelein-Kleiner L, Tissen J (1967) Study and identification of maya blue. Stud Conservat 12 41-56. [Pg.150]

Jose-Yacaman M, Rendon L, Arenas J, Serra Puche MC (1997) Maya blue paint an ancient nano structured material. Science 273 223-224. [Pg.150]

Sanchez del Rio M, Martinetto P, Reyes-Valerio C, Dooryhee E, Suarez M (2006) Synthesis and acid resistance of maya blue pigment. Archaeometry, 48 115-130. [Pg.150]

Hubbard B, Kuang W, Moser A, Facey GA, DeteUier C (2003) Structural study of maya blue textural, thermal and solid-state multinuclear magnetic resonance characterization of the palygroskite-indigo and sepioUte-indigo adducts. Clays Clay Miner 51 318-326. [Pg.150]

Reinen D, Kohl P, Muller C (2004) The nature of the colour centres in maya blue - the incorporation of organic pigment molecules into the palygorskite lattice. Zeitsch Anorg Allgem Chem 630 97-103. [Pg.151]

Ovarlez S, Chaze A-M, Giulieii F, Delamare F (2006) Indigo chemisorption in sepiolite. Application to Maya blue formation. Compt Ren Chim 9 1243-1248. [Pg.151]

Domenech A, Domenech-Carbo MT, Vazquez ML (2006) Dehydroindigo a new piece into the maya blue puzzle from the voltammetry of microparticles approach. J Phys Chem B 110 6027-6039. [Pg.151]

Gomez-Romero, P. Sanchez, C. Hybrid materials. Functional properties. From Maya Blue to 21st century materials. New J. Chem. 2005,29, 51. [Pg.1280]

Thermochemical Parameters for the Association of Indigo, Dehydroindigo, and Leucoindigo to Palygorskite Calculated from the Variation with Temperature (Temperature Range 0-60°C) of Peak Potentials Recorded in SQWVs of Maya Blue Samples Attached to Paraffin-Impregnated Graphite Electrodes in Contact with 0.50 M Acetate Buffer and 0.10 M NaOH... [Pg.85]

Arnold, D.E. 1967. Maya blue A new perspective. Master s thesis. University of Illinois, Urbana. Arnold, D.E. 1971. Ethnomineralogy of Ticul, Yucatan potters Etics and emics. American... [Pg.276]

Arnold, D.E., and Bohor, B.E 1975. Attapulgite and Maya blue. An ancient mine comes to light. Archaeology 28, 22-29. [Pg.276]

Domenech, A., Domenech, M.T., and Vazquez, M.L. 2007a. Indigo/dehydroindigo/palygor-skite complex in Maya blue An electrochemical approach. Journal of Physical Chemistry C 111, 4585-4595. [Pg.283]

See other pages where Maya blue is mentioned: [Pg.100]    [Pg.611]    [Pg.614]    [Pg.379]    [Pg.283]    [Pg.75]    [Pg.586]    [Pg.589]    [Pg.91]    [Pg.91]    [Pg.92]    [Pg.92]    [Pg.94]    [Pg.94]    [Pg.150]    [Pg.94]    [Pg.1272]    [Pg.83]    [Pg.83]    [Pg.85]    [Pg.90]   
See also in sourсe #XX -- [ Pg.75 ]

See also in sourсe #XX -- [ Pg.75 ]

See also in sourсe #XX -- [ Pg.91 , Pg.92 , Pg.93 ]

See also in sourсe #XX -- [ Pg.83 , Pg.84 , Pg.85 , Pg.86 , Pg.87 , Pg.88 , Pg.89 , Pg.90 , Pg.91 , Pg.92 , Pg.93 ]

See also in sourсe #XX -- [ Pg.44 ]

See also in sourсe #XX -- [ Pg.93 , Pg.115 , Pg.138 ]



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