Non-invasive techniques for revealing the palette of the Romantic painter Francesco Hayez

Rampazzi, Laura, Brunello, Valentina, Corti, Cristina and Lissoni, Elena (2017) Non-invasive techniques for revealing the palette of the Romantic painter Francesco Hayez. Spectrochimica Acta A, 176 . pp. 142-154. ISSN 1386-1425 [Article]

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Abstract (in English)

This paper describes the first systematic analysis of the palette of Francesco Hayez, one of the most outstanding artists of European Romanticism, whose painting technique has never been extensively investigated despite the plethora of artistic studies. He lived in a particular moment in the history of painting, as in the first half of the 19th century many synthetic pigments were available, also in tin tubes, but traditional materials were still used. Sixteen paintings on canvas and on panels, created between 1823 and 1868, were analyzed in situ through non-invasive techniques (infrared reflectography and infrared reflection spectroscopy). Imaging investigation provided clues on painting technique, revealing some cases of pentimenti and underdrawings. A preliminary survey was carried out on a hundred pure pigments used up to the 19th century and on new synthetic colours, in order to attain reference spectra for the interpretation of painting spectra. The portable infrared instrument provided insight into Hayez’s painting materials, identifying barite, ivory black, lead-tin yellow, Naples yellow, ochres, Prussian blue, and white lead. The pigments were often blended, to obtain a unique fabric appearance or to attain cold shades. The results pointed to a siccative oil as a binder, mixed with white lead so that it could act as a catalyzer in polymerization reactions, and in some cases with a proteinaceous binder and resins. The preparation was made with gypsum and white lead mixed with a siccative oil. The results showed that the artist used a typical traditional palette, throughout his career, in order to lead to brilliant colors and with long-term stability. Anyway, the possible presence of cobalt blue in a few paintings suggests that Hayez had probably started testing the new colours, since the second decade of 19th century.

Item Type: Article
Authors:
AuthorsEmail
Rampazzi, Lauralaura.rampazzi@uninsubria.it
Brunello, ValentinaUNSPECIFIED
Corti, CristinaUNSPECIFIED
Lissoni, ElenaUNSPECIFIED
Languages: English
Keywords: Non-invasive analysis; FTIR reflectance spectroscopy; infrared reflectography; pigments characterization
Subjects: A. THEORETICAL AND GENERAL ASPECTS > 03. Art History
F.SCIENTIFIC TECHNIQUES AND METHODOLOGIES OF CONSERVATION > 13. Chemical analysis
F.SCIENTIFIC TECHNIQUES AND METHODOLOGIES OF CONSERVATION > 28. Infra red analysis
F.SCIENTIFIC TECHNIQUES AND METHODOLOGIES OF CONSERVATION > 36. Non-Destructive testing
H.HERITAGE TYPOLOGIES > 05. Collections (movable)
P. GEOGRAPHIC AREAS > 05. Europe
Name of monument, town, site, museum: Galleria Tadini (Lovere, Italy); Villa Carlotta (Tremezzina, Italy); Villa Vigoni (Menaggio, Italy); Galleria Civica d’Arte Moderna e Contemporanea (Torino, Italy); Galleria Nazionale d’Arte Moderna e Contemporanea (Roma, Italy); Musei Civici d’Arte e di Storia (Brescia, Italy)
Volume: 176
ISSN: 1386-1425
Depositing User: dr Laura Rampazzi
Date Deposited: 16 Apr 2019 15:35
Last Modified: 16 Apr 2019 15:35
References: AA.VV. Artists’ Pigments: volume 1, Feller R.L. (Ed.), Oxford University Press, London, 1985; volume 2, Roy A. (Ed.), Oxford University Press, London, 1993 volume 3, Fitzhugh E.W. (Ed.), Oxford University Press, London, 1997.

Armenini G.B., De' veri precetti della pittura, Ravenna 1578.



Bensi P., L’ inventario della bottega di colori di Angelo Mattei in Roma (1847), Arte documento 7, (1993) 255-258.



Bensi P., La tecnica pittorica nei dipinti su tela di Francesco Hayez, in Le tecniche pittoriche dell’Ottocento in Friuli e a Trieste, 2010 Forum Udine.



Bersani D., Berzioli M., Caglio S., Casoli A., Lottici P. P., Medeghini L., Poldi G., Zannini P.. An integrated multi-analytical approach to the study of the dome wall paintings by Correggio in Parma cathedral, Microchemical Journal 114 (2014) 80–88.



Cardeira A.M., Longelin S., Costa S., Candeias A., Carvalho M.L., Manso M., Analytical characterization of academic nude paintings by José Veloso Salgado, Spectrochimica Acta Part A 153 (2016) 379–385.



Carini A., Marelli I., Poldi G., L’Odalisca di Francesco Hayez, Kermes 91 (2013) 40-46.



Carlyle L., Paint driers discussed in 19th-century British oil painting manuals, JAIC 38 (1999) 69-82.



Cavenaghi L., Il restauro e la conservazione dei dipinti. Conferenza di Luigi Cavenaghi, in Italia, Atti del I Convegno degli ispettori onorari dei monumenti e scavi, Roma (1912) 488-500.



de Viguerie L., Payard P.A., Portero E., Walter Ph., Cotte M., The drying of linseed oil investigated by Fourier transform infrared, Progress in Organic Coatings 93 (2016) 46–60.



Derrick M.R., Stulik D., Landry J.M., Infrared Spectroscopy in Conservation Science, Getty Conservation Institute 1999.



Di Majo E., Pagliani E., I Vespri siciliani di Francesco Hayez (Galleria Nazionale d’Arte Moderna di Roma). Restauro e indagini sulla tecnica, Kermes 7 (1990) 10-19.



Eastaugh N., Walsh V., Chaplin T., Siddall R., Pigment compendium. A dictionary and optical microscopy of historical pigments, 2008, Butterworth-Heinemann, Oxford.



Ferriani B., Perazzolli C., Mattarelli M., Montagna M., Gialanella S., Francesco Hayez: alcune considerazioni sulle preparazioni, sulla tecnica e sulla conservazione, in Effetto luce. Materiali, tecnica, conservazione della pittura italiana dell’Ottocento, 2009, Edifir Firenze, 75-90.



Flori E., Il figliastro del Manzoni, Stefano Stampa, 1938, Istituto Editoriale Cisalpino, Milano, page 79.



Franquelo M. L., Perez-Rodriguez J. L., A new approach to the determination of the synthetic or natural origin of red pigments through spectroscopic analysis, Spectrochimica Acta Part A 166 (2016) 103–111.



Gargano M., Ludwig N., G. Poldi G., A new methodology for comparing IR reflectographic systems, Infrared Physics and Technology 49 (2007) 249–253.



Gettens R.J., Stout G.L., Painting materials. A short Encyclopaedia, 1966, Dover Publications, New York.



Madariaga J.M., Maguregui M., Castro K., Knuutinen U., Martı´nez-Arkarazo I., Portable Raman, DRIFTS, and XRF analysis to diagnose the conservation state of two wall painting panels from Pompeii deposited in the Naples National Archaeological Museum (Italy), Applied Spectroscopy 70 (2016) 137–146.



Mandal P.K., Mandal T.K., Anion water in gypsum (CaSO42H2O) and hemihydrate (CaSO41/2H2O), Cement and Concrete Research 32 (2002) 313 – 316.



Manfredi M., Barberis E., Rava A., Robotti E., Gosetti F., Marengo E., Portable diffuse reflectance infrared Fourier transform (DRIFT) technique for the non-invasive identification of canvas ground: IR spectra reference collection, Analytical methods 7 (2015) 2313-2322.



Mazzocca F. (edited by), Francesco Hayez, catalogue of the exhibition held at Gallerie d'Italia Milano, november 2015 - february 2016), Cinisello Balsamo (Milano) 2015.



Meilunas R., Bentsen J., Steinberg A., Analysis of aged paint binders by FTIR spectroscopy, Studies in Conservation 35 (1990) 33-51.



Miguel C., V. Pinto J., Clarke M., Melo M. J., The alchemy of red mercury sulphide: The production of vermilion for medieval art, Dyes and Pigments 102 (2014) 210-217.



Miliani C., Rosi F., Burnstock A., Brunetti B.G., Sgamellotti A., Non-invasive in situ investigations versus micro-sampling: a comparative study on a Renoirs painting, Applied Physics A 89 (2007) 849-856.



Miliani C., Daveri A., Brunetti B.G., Sgamellotti A., CO2 entrapment in natural ultramarine blue, Chemical Physics Letters 466 (2008) 148-151.



Miliani C., Rosi F., Daveri A., Brunetti B.G., Reflection spectroscopy for the non-invasive in situ study of artists’ pigments, Applied Physics A 106 (2012) 295-307.



Moon T., Schilling M. R., Thirkettle S., A Note on the Use of False-Color Infrared Photography in Conservation, Studies in Conservation 37 (1992) 42-52.



Perusini G., Le tecniche pittoriche e la formazione artistica a metà Ottocento nelle Accademie di Venezia e Vienna, in Le tecniche pittoriche dell’Ottocento in Friuli e a Trieste, 2010 Forum Udine, 11-40.



Poldi G., Villa G.C.F., Dalla Conservazione Alla Storia Dell'arte, Riflettografia e Analisi Non Invasive per lo studio dei dipinti, Edizioni della Normale, Pisa, 2006.



Princivalle A., Indagini scientifiche su dipinti dell’Ottocento triestino, in Le tecniche pittoriche dell’Ottocento in Friuli e a Trieste, 2010 Forum Udine, 105-109.



Ren F., Ding Y., Leng Y., Infrared spectroscopic characterization of carbonated apatite: A combined experimental and computational study, Journal of Biomedical Materials Research A, 102A (2014) 496–505.



Rifkin R. F., Prinsloo L. C., Dayet L., Haaland M. M., Henshilwood C. S., Lozano Diz E., Moyo S., Vogelsang R., Kambombo F., Characterising pigments on 30 000-year-old portable art from Apollo 11 Cave, Karas Region, southern Namibia, Journal of Archaeological Science Reports 5 (2016) 336–347.



Rosi F., Daveri A., Moretti P., Brunetti B.G., Miliani C., Interpretation of mid and near-infrared reflection properties of synthetic polymer paints for the non-invasive assessment of binding media in twentieth-century pictorial artworks, Microchemical Journal 124 (2016) 898-908.



Sessa C., Bagán H., García J.F., Influence of composition and roughness on the pigment mapping of paintings using mid-infrared fiberoptics reflectance spectroscopy (mid-IR FORS) and multivariate calibration, Analytical and Bioanalytical Chemistry 406 (2014) 6735–6747.



Swicklik M., French painting and the use of varnish, 1750–1900, in Conservation research, Studies in the history of art, 41 (1993), Monograph series 2, National Gallery of Art Washington, 157–74.



Tomasini E., Siracusano G., Maier M.S., Spectroscopic, morphological and chemical characterization of historic pigments based on carbon. Paths for the identification of an artistic pigment, Microchemical Journal 102 (2012) 28–37.



Vagnini M., Miliani C., Cartechini L., Rocchi P., Brunetti B.G., Sgamellotti A., FT-NIR spectroscopy for non-invasive identification of natural polymers and resins in easel paintings, Analytical and Bioanalalytical Chemistry 395 (2009) 2107–2118.



Vahur S., Knuutinen U., Leito I., ATR-FT-IR spectroscopy in the region of 500–230 cm−1 for identification of inorganic red pigments, Spectrochimica Acta Part A 73 (2009) 764–771.



Valadas S., Freire R., Cardoso A., Mirão J., Vandenabeele P., Caetano J.O., Candeias A., New insight on the underdrawing of 16th Flemish-Portuguese easel paintings by combined surface analysis and micro analytical techniques, Micron 85 (2016) 15–25.



Van Strydonck M., Decq L., Van den Brande T., Boudin M., Ramis D., Borms H., G. De Mulder, The protohistoric 'quicklime burials' from the Balearic Islands: cremation or inhumation, International Journal of Osteoarchaeology 25 (2015) 392-400.



Vetter W., Schreiner M., Characterization of pigment-binding media systems - Comparison of non-invasive in-situ reflection FTIR with transmission FTIR microscopy, e-Preservation Science 8 (2011) 10-22.



Wilson, M.J., Clay mineralogy: spectroscopic and chemical determinative methods, 1994, Chapman&Hall, London.
URI: http://openarchive.icomos.org/id/eprint/2063

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