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Non-Destructive and Non-Invasive Approaches for the Identification of Hydroxy Lead-Calcium Phosphate Solid Solutions ((Pb x Ca 1- x ) 5 (PO 4 ) 3 OH) in Cultural Heritage Materials.

Claudio CostantinoLetizia MonicoFrancesca RosiRiccardo VivaniAldo RomaniLuis Carlos Colocho HurtarteEduardo Villalobos-PortilloChristoph J SahleThomas HuthwelkerCatherine DejoieManfred BurghammerMarine Cotte
Published in: Applied spectroscopy (2024)
Lead-calcium phosphates are unusual compounds sometimes found in different kinds of cultural heritage objects. Structural and physicochemical properties of this family of materials, which fall into the hydroxypyromorphite-hydroxyapatite solid solution, or (Pb x Ca 1- x ) 5 (PO 4 ) 3 OH, have received considerable attention during the last few decades for promising applications in different fields of environmental and material sciences, but their diagnostic implications in the cultural heritage context have been poorly explored. This paper aims to provide a clearer understanding of the relationship between compositional and structural properties of the peculiar series of (Pb x Ca 1- x ) 5 (PO 4 ) 3 OH solid solutions and to determine key markers for their proper non-destructive and non-invasive identification in cultural heritage samples and objects. For this purpose, a systematic study of powders and paint mock-ups made up of commercial and in-house synthesized (Pb x Ca 1- x ) 5 (PO 4 ) 3 OH compounds with a different Pb 2+ /Ca 2+ ratio was carried out via a multi-technique approach based on scanning electron microscopy, synchrotron radiation-based X-ray techniques, i.e., X-ray powder diffraction and X-ray absorption near edge structure spectroscopy at the Ca K- and P K-edges, and vibrational spectroscopy methods, i.e., micro-Raman and Fourier transform infrared spectroscopy. The spectral modifications observed in the hydroxypyromorphite-hydroxyapatite solid solution series are discussed, by assessing the advantages and disadvantages of the proposed techniques and by providing reference data and optimized approaches for future non-destructive and non-invasive applications to study cultural heritage objects and samples.
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