Hydroxyapatite and Other Calcium Phosphates for the Conservation of Cultural Heritage: A Review

Overview

Journal Materials (Basel)

Publisher MDPI

Date 2018 Apr 5

PMID 29617322

Citations 15

Authors

Enrico Sassoni

Affiliations

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Abstract

The present paper reviews the methods and the performance of in situ formation of calcium phosphates (CaP) for the conservation of materials belonging to cultural heritage. The core idea is to form CaP (ideally hydroxyapatite, HAP, the most stable CaP at pH > 4) by reaction between the substrate and an aqueous solution of a phosphate salt. Initially proposed for the conservation of marble and limestone, the treatment has been explored for a variety of different substrates, including sandstones, sulphated stones, gypsum stuccoes, concrete, wall paintings, archaeological bones and paper. First, the studies aimed at identifying the best treatment conditions (e.g., nature and concentration of the phosphate precursor, solution pH, treatment duration, ionic and organic additions to the phosphate solution, mineralogical composition of the new CaP phases) are summarized. Then, the treatment performance on marble and limestone is reviewed, in terms of protective and consolidating effectiveness, compatibility (aesthetic, microstructural and physical) and durability. Some pilot applications in real case studies are also reported. Recent research aimed at extending the phosphate treatment to other substrates is then illustrated. Finally, the strengths of the phosphate treatment are summarized, in comparison with alternative products, and some aspects needing future research are outlined.

Citing Articles

In Situ Growth of Enamel-like Apatite Coating for Marble Protection.

Zhou Y, Li W, Wang Y, Wang K Materials (Basel). 2025; 18(4).

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Advancements in Stone Object Restoration Using Polymer-Inorganic Phosphate Composites for Cultural Heritage Preservation.

Fistos T, Fierascu I, Manaila-Maximean D, Fierascu R Polymers (Basel). 2024; 16(14).

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Biphasic Bioceramic Obtained from Byproducts of Sugar Beet Processing for Use in Bioactive Coatings and Bone Fillings.

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Ammonium -(pyridin-2-ylmethyl)oxamate (AmPicOxam): A Novel Precursor of Calcium Oxalate Coating for Carbonate Stone Substrates.

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Application of Inorganic Nanomaterials in Cultural Heritage Conservation, Risk of Toxicity, and Preventive Measures.

Gomez-Villalba L, Salcines C, Fort R Nanomaterials (Basel). 2023; 13(9).

PMID: 37176999 PMC: 10180185. DOI: 10.3390/nano13091454.

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