Dyes were used in Mexico since early pre-Hispanic periods for coloring of fibers, codex writing, and mural paintings, among other purposes. From the wide variety of Mexican dyes, only a handful has been studied at length. Moreover, few studies had been devoted to the identification of these substances in artistic or historical objects, in part, because of the lack of a suitable technique that complies with the nondestructive or microdestructive requirements that involves working with such objects. Surface-enhanced Raman spectroscopy (SERS) may provide the tool needed to identify the more than 20 dyes that can be found in Mexico and the first step would be acquiring their SERS spectra in laboratory conditions. To fulfill that goal, carminic acid, cochineal (Dactylopius coccus), achiote (Bixa orellana), muitle (Justicia spicigera), zacatlaxcalli (Cuscuta sp.), brazilwood (Caesalpinia echinata), and cempazuchitl (Tagetes erecta) SERS spectra were recorded in aqueous solution and directly on dyed wool fibers, using silver colloids as SERS substrate. Ag nanoparticles were prepared by chemical reduction with sodium citrate and characterized by UV-Vis spectroscopy and high resolution transmission electronic microscopy. Pure carminic acid was used for control SERS spectra and then samples of cochineal, achiote, muitle, zacatlaxcalli, brazilwood, and cempazuchitl were tested. Samples were prepared either by extraction from their natural sources or by dyeing the fibers; in both cases traditional recipes were followed. The acquired spectra may serve in future research as comparative references for the identification of the dyes present in cultural artifacts, and in the case of cempazuchitl, muitle, and zacatlaxcalli, these are probably the first reported Raman spectra of such plants.
Destructive Analysis using X-rays) developed at the Physics Institute of the UNAM, Mexico, for the study of Mexican cultural heritage collections. The X-ray fluorescence (XRF) SANDRA device can use 75 W Mo, Rh and W X-ray tubes and Amptek Si-PIN and Cd-Te detectors that are selected and combined depending on the elemental range detection requirements and the specific problem to be studied. In this paper, a full description and characterization of this system, sensitivities for the X-ray tubes and detectors as well as the detection limits are discussed. Examples of applications to technological studies on pre-Columbian metallic artifacts and analysis of color materials of ancient Mexican codex are shown.
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