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Vibrational investigation of indigo-palygorskite association(s) in synthetic Maya blue

Journal of Materials Science, ISSN: 0022-2461, Vol: 47, Issue: 7, Page: 3415-3428
2012
  • 39
    Citations
  • 0
    Usage
  • 20
    Captures
  • 0
    Mentions
  • 0
    Social Media
Metric Options:   Counts1 Year3 Year

Metrics Details

  • Citations
    39
    • Citation Indexes
      39
  • Captures
    20

Article Description

A systematic investigation of the controversial association between indigo and palygorskite in Maya blue (MB), the famous Mesoamerican nano-hybrid pigment, is presented. It is based on vibrational spectroscopy up to near-infrared frequencies, as well as on X-ray diffraction and thermogravimetric analysis. The vibrational data point to a unique vibrational signature of the associated indigoid species over a broad range of experimental parameters (different octahedral composition of palygorskite, indigo concentration up to ca. 10 wt%, preparation temperature up to ca. 130 °C). This signature of MB includes bands attributed to the fundamental, combination, and overtone modes of N-H groups and proves that the associated species is indigo and not dehydroindigo. The high-wavenumber position of the N-H modes suggests that indigo is interacting weakly with the host matrix. The association with palygorskite proceeds with a log(time) kinetic law, provided that the tunnels of the clay are free from zeolitic H O. It is found that palygorskite with pre-dried tunnels forms MB even at ambient temperatures. On the contrary, palygorskite with pre-folded tunnels does not associate with indigo. These data are compatible with models involving the diffusion of indigo inside the tunnels of palygorskite. By filling the tunnels, indigo blocks their rehydration at ambient as well as their folding at higher temperatures. At ca. 220 °C, indigo in MB assumes quantitatively a different bonding arrangement. This high-temperature structural transformation of MB is slowly reversible upon rehydration at ambient and its onset is observed at relatively low temperatures (≥130 °C). Thus, MB synthesized above ca. 130 °C and not given sufficient time to rehydrate fully at ambient would still contain variable amounts of the high-temperature species, which may explain conflicting reports about the nature of the guest molecule. © 2011 Springer Science+Business Media, LLC.

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