2:15pm - 2:45pmInvitedID: 373
/ FS4 S2: 1
Focused Sessions 4: Photonics for cultural heritage
Invited - Raman spectroscopy advancements in heritage science
Alessandra Botteon1, Alberto Lux1,2, Marco Realini1, Pietro Strobbia3, Pavel Matousek4, Marc Vermeulen5, Claudia Conti1
1Institute of Heritage Science, National Research Council, Via Cozzi 53, Milano 20125, Italy; 2“La Sapienza” University of Rome, Piazzale Aldo Moro 5, 00185 Rome, Italy; 3Department of Chemistry, University of Cincinnati, 201 Crosley Tower, Cincinnati, United States; 4Central Laser Facility, Research Complex at Harwell, STFC Rutherford Appleton Laboratory, Harwell Oxford, OX11 0QX, United Kingdom; 5The National Archives, Ruskin Av., Kew, Richmond (Surrey) TW9 4DU, United Kingdom
Micro-Spatially Offset Raman Spectroscopy (micro-SORS) is an advanced Raman technique that allows the non-destructive analysis of inner portions of cultural heritage artefacts, providing insights on their composition in a non-destructive way. The contribution delves into the methodological and technological advancements of micro-SORS at the CNR-ISPC Raman Spectroscopy Laboratory in Milan over the past decade. Developed in 2014, micro-SORS has become a versatile tool for characterizing artefacts from various historical periods and cultural contexts. Significant progress has been made in refining instrumentation and methodology, resulting in high-performance micro-SORS prototypes, including benchtop and portable systems. Key topics focus on investigating layered materials (e.g., paintings and painted objects) and studying the diffusion of conservation treatments and decay products into various substrates. The aim is to obtain information about the materials' composition, the efficacy of treatments, and the conservation state of the objects under analysis. Additionally, mapping/imaging micro-SORS has been developed to reconstruct the distribution of compounds hidden by opaque layers, such as concealed text in sealed letters. Lastly, this presentation will cover challenges associated with in-situ micro-SORS analysis, including environmental constraints and data interpretation, and will explore strategies for overcoming these.
2:45pm - 3:00pmID: 420
/ FS4 S2: 2
Focused Sessions 4: Photonics for cultural heritage
Characterization of photoluminescent and Raman properties of ultramarine blue pigment variants with a novel multimodal approach
Francesco Carta1, Iacopo Osticioli2, Daniele Ciofini2, Silvia Rita Amato3, Aviva Bournostock3, Piercesare Secchi1, Daniela Comelli1
1Politecnico di Milano, Physics Department, Italy; 2Istituto di Fisica Applicata “Nello Carrara”, Consiglio Nazionale delle Ricerche, Italy; 3Courtauld Institute of Art, Somerset House, Strand, London, UK
Ultramarine Blue (UB) pigment, derived from lapis lazuli, holds a significant place in the history of late medieval and Renaissance Europe, owing to its unusually bright colour and stability. Its prohibitive price, which equalled that of gold, meant that it was only used by estimated artists. In this work we present a non-invasive, multimodal approach to the characterization of the photoluminescent properties of different variants of the pigment. The ultimate goal of this research is to propose a protocol for the identification of UB in artworks thanks to the combination of Raman spectroscopy and time resolved-photoluminescence spectroscopy and imaging.
3:00pm - 3:15pmID: 439
/ FS4 S2: 3
Focused Sessions 4: Photonics for cultural heritage
Multimodal spectroscopic assessment of mechanical and chemical properties of ABS objects in cultural heritage preservation
Martina Alunni Cardinali1, Irene Bargagli1,2, Valeria Di Tullio3, Brenda Doherty2, Marco Paolantoni1, Daniele Fioretto4,5, Noemi Proietti3, Francesca Sabatini2, Costanza Miliani6, Elisa Storace7, Sara Russo8, Rafaela Trevisan9, Alessandra Vannini9, Laura Cartechini2, Aldo Romani1, Lucia Comez5, Francesca Rosi2
1Department of Chemistry, Biology and Biotechnology, University of Perugia via Elce di Sotto, 8 06123, Italy; 2CNR – Istituto di Scienze e Tecnologie Chimiche “Giulio Natta” (SCITEC), via Elce di Sotto, 8 06123 Perugia, Italy; 3CNR – Istituto di Scienze del Patrimonio (ISPC), Strada Provinciale 35d, n. 9, 00010, Montelibretti (Roma), Italy; 4Dipartimento di Fisica e Geologia Università di Perugia, via Pascoli 8 06123 Perugia; 5CNR - Istituto Officina dei Materiali (IOM), Via Pascoli, 06123 Perugia, Italy; 6CNR – Istituto di Scienze del Patrimonio (ISPC), Via Guglielmo Sanfelice, 8 80134 Napoli, Italy; 7Fondazione Museo Kartell, Via delle Industrie 3, 20082 Noviglio Milano, Italy; 8Università degli Studi di Firenze, Dipartimento di Storia, Archeologia, Geografia, Arte e Spettacolo, Via S. Gallo, 10 - 50129 Firenze, Italy; 9Triennale Milano, Conservazione e restauro, viale Emilio Alemagna 6, 20121 Milano, Italy
The 1960s saw the emergence of plastic as an indispensable component in various fields, including art and design. Acrylonitrile-butadiene-styrene (ABS) is widely used by artists and designers for a range of applications including sculptures and decorative pieces. Consequently, the necessity to conserve ABS from deterioration is a crucial issue in the field of cultural heritage preservation. Many studies have highlighted the criticality of the stability of the polybutadiene component when exposed to light. We propose a new multimodal spectroscopic approach to assess the conservation status of plastic design objects. This nondestructive approach combines correlative Brillouin and Raman micro-spectroscopy (BRaMS),
external reflection IR spectroscopy and portable NMR relaxometry. BRaMS is a novel nondestructive technique in the field of heritage conservation, allowing simultaneous monitoring of chemical and mechanical changes occurring at the sample surface. The present study focused on photochemically aged LEGO® bricks made of ABS and aimed to i) correlate chemical and mechanical changes induced by light exposure and ii) introduce a surface degradation index (SDI), measurable in situ by external reflection IR spectroscopy, to assess the state of conservation of plastic artefacts. Finally, non-invasive investigations were carried out on real design objects using the MObile LABoratory (MOLAB) platform.
3:15pm - 3:30pmID: 424
/ FS4 S2: 4
Focused Sessions 4: Photonics for cultural heritage
Use of hyperspectral imaging to monitor the effectiveness of plasma-generated atomic oxygen for non-contact cleaning of indigo dyed silk
Elisabetta Martinelli1, Alessia Candeo1, Alessia Di Benedetto1, Nan Yang2, Marta Cremonesi2, Francisco Mederos-Henry3, Geert Van der Snickt2, Anton Nikiforv4, Daniela Comelli1
1Politecnico di Milano, Italy; 2University of Antwerp, Belgium; 3Royal Institute for Cultural Heritage, Belgium; 4Ghent University, Belgium
This study explores the use of hyperspectral imaging (HSI) to monitor the effectiveness of plasma-generated atomic oxygen (AO) treatment for non-invasive cleaning of cultural heritage object. Silk samples dyed with indigo blue, including those soiled with soot to mimic historical artifacts, were treated with plasma-generated atomic oxygen for varying durations. Using HSI with a TWINS birefringent interferometer, diffuse reflectance and light-induced fluorescence are observed. That allowed a precise evaluation of sample degradation avoiding any invasive sample extraction. This research not only contributes to the field of cultural heritage conservation but also enhances understanding of indigo colour degradation processes and the evaluation of non-invasive cleaning techniques on sensitive materials.
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