dc.description.abstract | In recent decades, the historical and artistic heritage has undergone a greater degradation
than in the past, in relation to the synergic action of atmospheric pollution, climate
changes, and biological contamination. The conservation of cultural heritage, therefore,
requires, in addition to the reduction of environmental pollution levels, also the
development of increasingly innovative, effective, long-lasting, and inexpensive
protection strategies. With these premises, this Ph.D. thesis was aimed at contributing to
the research activities of the MIUR Project "Smart Cities, n. SCN_00520 entitled:
“Product and process innovation for sustainable and planned maintenance,
conservation, and restoration of cultural heritage” whose main objectives concerned:
The characterization of the various forms of degradation of stone materials, using
advanced analytical techniques.
The research and development of new types of products that are not harmful to human
health, with low environmental impact, highly selective, and at low cost for the
restoration of degraded stone materials of cultural heritage.
The implementation of actions for the sustainable management of cultural heritage,
also through the development of a technological platform for preventive interventions
and scheduled maintenance.
The doctorate was hosted by the Science Department of the University of Basilicata and
the project was developed in collaboration with the industrial partner "Tab Consulting
S.r.l." of Potenza, where an initial internship period of 6 months was carried out. In
general, the main objective was to create a fruitful collaboration with other research
units, using XPS (X-ray Photoelectron Spectroscopy) as the main surface analysis
technique, in combination with other analytical techniques for comparative diagnosis. of
stone materials, before and after the innovative treatments developed in accordance with
the objectives of the “Smart Cities” project. [...] [edited by Author] | it_IT |