Nanomaterials and Nanotechnologies for Conservation-restoration and Preservation of Artworks

Donnerstag, 23. Oktober 2014 - 16:00 Uhr

Akademie der bildenden Künste Wien

Vortrag von Prof. Dr. Federica Valentini, Tor Vergata University Rome, Chemistry Department.

Nanomaterials exhibit excellent chemical-physical features (1) at the nanoscale levels, very useful for application in the conservation science of art works, leading to new analytical methodologies that can slow down the degradation processes of Cultural Heritage or even recover them from the damages introduced by aggressive conventional bio-chemical agents (2). In particular, in this study several restoration and preservation strategies, based on new nanomaterials, have been applied on art work surfaces, located in indoor and outdoor environments, respectively. A quantitative evaluation of the efficiency of these new treatments has been carried out and also compared with the analytical performances exhibited by the traditional methods, widely described in literature (3).

References
(1) Piero Baglioni and Rodorico Giorgi, Soft and hard nanomaterials for restoration and conservation of cultural heritage, Soft Matter, 2006,2, 293-303.
(2) Marc Aucouturier and Evelyne Darque-Ceretti, Tutorial Review: The surface of cultural heritage artefacts: physicochemical investigations for their knowledge and their conservation, Chem. Soc. Rev., 2007,36, 1605-1621.
(3) Francesca Cappitelli, Lucia Toniolo, Antonio Sansonetti et al.; Advantages of Using Microbial Technology over Traditional Chemical Technology in Removal of Black Crusts from Stone Surfaces of Historical Monuments, Appl. Environ. Microbiol. September 2007 vol. 73 no. 17 5671-5675

CV
Education
1993–1998: Degree in Chemistry from the Sapienza University of Rome, with a thesis entitled: “the role of nitrous acid in the Arctic troposphere”, in collaboration with CNR-Institute for Atmospheric Pollution.

2000-2003: PhD Thesis in field of electrochemical sensors for the detection of the 17-β-estradiol in waste waters” under supervision of Prof. Dr. Dario Compagnone (Chemistry Dep. in Tor Vergata University, Rome), Prof. G. Palleschi (Head of the Chemistry Department).

2008-2010: Degree in Science & Technology of Materials from the Tor Vergata University of Rome, with a thesis entitled: “Synthesis, characterization and analytical applications of multi layers of Graphene Oxides (GO)”; under supervision of Prof. G. Palleschi (Head of the Chemistry Department, Tor Vergata University) and Prof. Franco Cataldo (Full Professor in Chemistry Department, Tor Vergata University).

Professional Experience
02/2005-10/2005: Postdoctoral Studies at the Biodesign Institute of Arizona State University; Research cooperation with Prof. Dr. Joseph Wang (Synthesis and characterization of nanomotors, nanopropellers and nanomachines for application of fuel cells and drug delivery in nanomedicine).

Past and present Research Grants
Polarnet 1998-1999: Fellowship at CNR-Rome-Istituto Inquinamento Atmosferico, financed by the Artic Pollution projects; (40,000 Euro)
FIRB GIOVANI Futuro in Ricerca 2005-2007: research grant at Tor Vergata University and financed by the Italian Ministry of Education; (30,000 Euro)
FILAS REGIONE LAZIO 2009-2011: research grant at Tor Vergata University and financed by the Regione Lazio, Italy, (22,000 Euro).
Programma Nazionale di Ricerche in Antartide-2013: research grant at Tor Vergata University PNRA/PEA A1.01.

Termin

Uhu Diskurs
Vortrag, Federica Valentini, Restaurierung
Donnerstag, 23.10.2014 16:00
Akademie der bildenden Künste Wien
Schillerplatz 3
1010 Wien
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