Fabiana Di Gianvincenzo (UCPH)


About Fabiana

Born and raised in Italy, I started studying chemistry when I found out there was a connection between analytical chemistry and art. Since then, my studies have always been aimed at learning and improving the application of analytical techniques to the diagnostics for conservation and restoration of cultural heritage materials. Both my BSc and MSc theses were focused on the application of chromatographic and mass spectrometric techniques for the characterisation of organic artistic materials, in particular tannin-based dyes and modern oil paints.

During this PhD, my main goals are getting a deep knowledge of proteomics experimental techniques, and acquiring a good management capability of data analysis. I think my knowledge in chemistry and art conservation fields will be extremely helpful during the training phases for sample treatment and the interpretation of the results.

Fabiana's PhD project

Objectives

MS-based ancient protein sequencing will be used to confidently identify the biological species of origin and the raw materials, such as milk or egg fractions, used as binders in the polychromy decorating ancient sculptures and architecture (marble, alabaster, limestone).

Expected Results

The project will allow to better understand the original appearance of painted objects. This knowledge will be fundamental to plan long-term preservation and restoration and to define optimal conservation and display conditions. The proposed methodology also allows retrieving and quantifying patterns of degradation affecting ancient protein residues, to distinguish original paint traces and later treatments and brush-ups, ideally providing direct evidence to reconstruct the history of conservation for a specific object.

My project

The study of the polychromy of ancient artefacts over the past decades has completely changed our perception of the ancient world and its aesthetics. Ancient art and architecture was very far from the pure white we usually see in museum exhibitions, but rather vibrant with colour and it is now acknowledged that colour was an integral part of shape. The choice of the binding medium was of crucial importance to the final appearance and effect of the polychromy. The perception of a painted object is the final result of how the complex and highly heterogeneous structure of the paint interacts with light.

Understanding the composition of paint binders has paramount relevance in leading to a better understanding and perception of the original appearance of painted objects. In this thematic section of the project, MS-based ancient protein sequencing will be used to confidently identify the biological species of origin and the raw materials used as binders in the polychromy decorating ancient sculptures and architecture. This knowledge will be fundamental to plan long-term conservation and restoration, to define optimal conservation and display conditions, as well as to prevent or reduce decay processes.

Proteomic analysis will be applied to a number of selected paint samples from architectural elements and sculpted artefacts in the collection of the Ny Carlsberg Glyptotek (NCG). Focus will primarily be on artefacts in stone (marble, alabaster, limestone), and unfired materials. The proposed methodology also allows retrieving and quantifying patterns of degradation affecting ancient protein residues, to distinguish original paint traces and later treatments and brush-ups, ideally providing direct evidence to reconstruct the history of conservation for a specific object. Ultimately, this will provide a crucial contribution to the study of ancient art and architecture, since it will provide vital information on the appearance of the original colours and the techniques employed to obtain them.

Networking

Planned secondments:

  1. Secondment period of 4 months in USTL (co-supervision) to share and compare experience in paint binders analysis.

  2. Secondment period of 4 months at The British Museum (UK).

  3. Secondment period of 2 months at the conservation section of the Ny Carlsberg Glyptotek (NCG) to optimise, together with curators and restorers, the most effective and less invasive sampling procedure. Sample collection will take place in close collaboration with the conservation section of the NCG.

Regular interaction with Patrick Rüther, also based at UCPH, will be aimed at implementing the analytical improvements Patrick will develop as part of his research and development project.

Investigation of samples shared with Francesca Galluzzi's project (@USTL), also shared with UCAS, to contrast with pigment investigations on materials in China.

CV

2014-2017 Master’s Degree, Department of Chemistry and Industrial Chemistry, University of Pisa, Italy

Thesis topic: The degradation of modern oil paintings: a multi-analytical study of ageing phenomena

2016 Erasmus+ experience, Cultural Heritage Agency of the Netherlands, Amsterdam (Netherlands)

2010-2014 Bachelor’s Degree, Department of Chemistry and Industrial Chemistry, University of Pisa, Italy

Thesis topic: Study of the composition and degradation of tannin-based colorants and their identification in historical samples through HPLC/DAD technique and RP-Amide column

Secondment

During a 2-month secondment period at The British Museum (London), the ESR has been working on the method development for the use of museum instrumentation to perform proteomics analysis. She has also been working on a set of samples from an object of the Museum collection. The results for this study were unclear, therefore a new sampling on the same object for more analyses has now being scheduled. Once the study is completed, the results will be published in a scientific journal.

Publications

"SKIN, FURS, AND TEXTILES: MASS SPECTROMETRY-BASED ANALYSIS OF ANCIENT PROTEIN RESIDUES." in Sabatini, Serena, and Sophie Bergerbrant, eds. The Textile Revolution in Bronze Age Europe: Production, Specialisation, Consumption. Cambridge University Press, 2019.

Di Gianvincenzo, Fabiana, Clara Granzotto, and Enrico Cappellini.

On the influence of relative humidity on the oxidation and hydrolysis of fresh and aged oil paints.

Francesca Modugno, Fabiana Di Gianvincenzo, Ilaria Degano, Inez Dorothé van der Werf, Ilaria Bonaduce, and Klaas Jan van den Berg, (2019)

Palaeoproteomic Profiling of Conservation Layers on a 14th Century Italian Wall Painting.

Meaghan Mackie, Patrick Rüther, Diana Samodova, Fabiana Di Gianvincenzo, Clara Granzotto, David Lyon, David Peggie, Helen Howard, Lynne Harrison, Lars Juhl Jensen, Jesper V. Olsen, and Enrico Cappellini, (2018)

Protein residues from a painting by Sandro Botticelli’s workshop: a guideline to the application of palaeoproteomic techniques to artistic objects, in preparation

Di Gianvincenzo, Fabiana, Meaghan Mackie, David Peggie, Catherine Higgitt, Clara Granzotto, JesperV. Olsen and Enrico Cappellini

Detection of brewing products in the ground layer of Danish Golden Age paintings by proteomic techniques, in preparation

Di Gianvincenzo, Fabiana, Meaghan Mackie, Madeleine Ernst, Jazmín Ramos Madrigal, Cecil KrarupAndersen, Troels Filtenborg, Jørgen Wadum, Jesper V. Olsen and Enrico Cappellini

At: University of Copenhagen

Supervisor: Enrico Cappellini

Photo credits: Fabiana Di Gianvincenzo