2023
DOI: 10.1007/s11431-022-2348-7
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Advanced methodologies for the cleaning of works of art

Abstract: Cultural heritage assets constitute a fundamental socioeconomic resource, but the actual works of art need to be maintained, counteracting degradation processes, to transfer these benefits to future generations. In particular, the removal of soil, aged coatings, and vandalism/overpaints is one of the most needed interventions in art restoration. Traditional cleaning methodologies, based on classical solution and polymer chemistry, only grant limited control of the cleaning interventions, with the risk of affec… Show more

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Cited by 30 publications
(37 citation statements)
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“…Successively, different nanostructured cleaning fluids (NCFs) were also developed, using nonionic surfactants and partially water-soluble solvents, which are mostly found in the fluid’s continuous aqueous phase and only partially in the surfactant micelles. , These NCFs were designed to remove aged polymeric coatings (e.g., acrylate, vinyl acetate, epoxy), which they do following nonclassic mechanisms. Essentially, these NCFs promote the dewetting of polymer layers (see Figure ), driven by two main factors: (1) good solvents and the surfactant swell and mobilize the polymer chains, and (2) surfactant molecules favor the formation of interfaces and polymer detachment areas, lowering the activation energy to initiate dewetting and speeding up its kinetics.…”
Section: Nanostructured Fluidsmentioning
confidence: 99%
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“…Successively, different nanostructured cleaning fluids (NCFs) were also developed, using nonionic surfactants and partially water-soluble solvents, which are mostly found in the fluid’s continuous aqueous phase and only partially in the surfactant micelles. , These NCFs were designed to remove aged polymeric coatings (e.g., acrylate, vinyl acetate, epoxy), which they do following nonclassic mechanisms. Essentially, these NCFs promote the dewetting of polymer layers (see Figure ), driven by two main factors: (1) good solvents and the surfactant swell and mobilize the polymer chains, and (2) surfactant molecules favor the formation of interfaces and polymer detachment areas, lowering the activation energy to initiate dewetting and speeding up its kinetics.…”
Section: Nanostructured Fluidsmentioning
confidence: 99%
“…Even in cases where the presence of amphiphilic additives in the coating film discourage its dewetting from the artistic substrate, the fast dynamic exchange of solvent, surfactant, and cosurfactant from the NCFs continuous and dispersed phases to the polymer layer causes its swelling, softening, and feasible detachment. Overall, these features are key to achieve the high versatility and efficacy that the NCFs have exhibited in the past decades over a range of case studies spanning from classic frescos and the Renaissance to modern/contemporary masterpieces by Pablo Picasso. ,,, Figure shows two examples where the NCFs were used to remove aged varnish from a painted wood panel and a complex superimposition of synthetic polymer coatings accumulated on wall paintings in the Annunciation Basilica in Nazareth (Israel) owing to past restorations in the past decades.…”
Section: Nanostructured Fluidsmentioning
confidence: 99%
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