Angelica Bartoletti

Angelica Bartoletti

ORCID: 0000-0002-1390-7782

Angelica Bartoletti completed her Ph.D. in Nanometrology applied to Heritage Science at University College London (UCL) in 2016, with a thesis on the application of scanning probe microscopy to collagen-based artefacts (parchment and leather). Before joining Universidade NOVA de Lisboa, she worked at Tate Gallery (London, U.K.), as a postdoctoral fellow on the EU-funded project NANORESTART, and then as a conservation scientist (2017-2019). Her research interests include assessing the impact of traditional and innovative conservation treatments for cellulose, collagen-based artefacts, modern and contemporary materials (paints and plastics), with a focus on cleaning strategies. She is also interested in surface analysis techniques and in the application of innovative tools (such as Atomic Force Microscopy and Micro/Nano Thermal Analysis) in the field of heritage science for the characterisation of materials and their degradation behaviours at the nanoscale.

Angelica Bartoletti

Angelica Bartoletti

ORCID: 0000-0002-1390-7782

Angelica Bartoletti completed her Ph.D. in Nanometrology applied to Heritage Science at University College London (UCL) in 2016, with a thesis on the application of scanning probe microscopy to collagen-based artefacts (parchment and leather). Before joining Universidade NOVA de Lisboa, she worked at Tate Gallery (London, U.K.), as a postdoctoral fellow on the EU-funded project NANORESTART, and then as a conservation scientist (2017-2019). Her research interests include assessing the impact of traditional and innovative conservation treatments for cellulose, collagen-based artefacts, modern and contemporary materials (paints and plastics), with a focus on cleaning strategies. She is also interested in surface analysis techniques and in the application of innovative tools (such as Atomic Force Microscopy and Micro/Nano Thermal Analysis) in the field of heritage science for the characterisation of materials and their degradation behaviours at the nanoscale.