| Literature DB >> 34354126 |
Fauzia Albertin1,2,3, Chiara Ruberto4,5, Costanza Cucci6, Marco Callieri7, Marco Potenziani8, Eliana Siotto7, Paolo Pingi7, Roberto Scopigno7, Matteo Bettuzzi2,3, Rosa Brancaccio2,3, Maria Pia Morigi2,3, Lisa Castelli9, Francesco Taccetti9, Marcello Picollo10, Lorenzo Stefani10, Francesca de Vita11.
Abstract
Scientific investigations of artworks are crucial in terms of preservation since they provide a measurable evaluation of the materials and the state of conservation. This is the case of Antonello da Messina's painting "Ecce Homo": its delicate state of conservation, with the need for constant monitoring, required a broad and in-depth diagnostic campaign to support the restorers. The project was carried out entirely in situ using non-invasive cutting-edge techniques and proposes a multimodal and data-centric approach, integrating 3D and 2D methodologies. The surface irregularities and the support were analysed with a structured-light 3D scanner and X-ray tomography. The painting materials were investigated with X-ray fluorescence scanning (MA-XRF) and reflectance hyperspectral imaging (HSI). Primarily, the data were jointly used for a scientific scope and provided new knowledge of the painting in terms of materials and painting techniques. In addition, two web-based interactive platforms were developed: one to provide restorers and experts with a new perspective of the hidden geometries of the painting, and the other targeted at the general public for dissemination purposes. The results of the Ecce Homo scientific analysis were exhibited, using a touch-screen interface, and developed for different user levels, from adults to kids.Entities:
Year: 2021 PMID: 34354126 DOI: 10.1038/s41598-021-95212-2
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379