Aramendia J., Gomez-Nubla L., Bellot-Gurlet L., Castro K., Paris C., Colomban P., Madariaga J. M. 2014. “Protective ability index measurement through Raman quantification imaging to diagnose the conservation state of weathering steel structures”, Journal of Raman Spectroscopy, sous presse.
Barbillat J., Bougeard D., Buntinx G., Delhaye M., Dhamelincourt P., Fillaux F. 1999. « Spectrométrie Raman”, Techniques de l’Ingénieur, P 2 865: 1-31.
Bell I. M., Clark R. J. H., Gibbs P. 1997. “Raman spectroscopic library of natural and synthetic pigments (pre ~ 1850 AD)”, Spectochimica Acta Part A, 53: 2159-2179.
Burgio L. & Clark R. J. H. 2001. “Library of FT-Raman spectra of pigments, minerals, pigment media and varnishes, and supplement to existing library of Raman spectra of pigments with visible excitation”, Spectochimica Acta Part A, 57: 1491-1521.
Caggiani M. C., Colomban P., Valotteau C., Mangone A., Cambon P. 2013. “Mobile Raman spectroscopy analysis of ancient enamelled glass masterpieces”, Analytical Methods, 5: 4345-4354.
Colomban P. & Milande V. 2006. “On-site Raman analysis of the earliest known Meissen porcelain and stoneware”, Journal of Raman Spectroscopy, 37: 606-613.
Colomban P., Tournié A., Bellot-Gurlet L. 2006. “Raman identification of glassy silicates used in ceramics, glass and jewellery: a tentative differentiation guide”, Journal of Raman Spectroscopy, 37: 841-852.
Colomban P. & Tournié A. 2007. “On-site Raman identification and dating of ancient/modern stained glasses at the Sainte-Chapelle, Paris”, Journal of Cultural Heritage, 8: 242-256.
Colomban P. 2012. « Analyse non destructive des objets d’art par méthodes spectroscopiques portables », Techniques de l’Ingénieur, 217: 1-18.
Colomban P., Tournié A., Caggiani M. C., Paris C. 2012. “Pigments and enamelling/gilding technology of Mamluk mosque lamps and bottle”, Journal of Raman Spectroscopy, 43: 1975-1984.
Daher C., Paris C., Le Hô A.-S., Bellot-Gurlet L., Échard J.-P. 2010. “A joint use of Raman and infrared spectroscopies for the identification of natural organic media used in ancient varnishes”, Journal of Raman Spectroscopy, 41: 1204-1209.
Daher C., Bellot-Gurlet L., Le Hô A.-S., Paris C., Regert M. 2013. “Advanced discriminating criteria for natural organic substances of Cultural Heritage interest: Spectral decomposition and multivariate analyses of FT-Raman and FT-IR signatures”, Talanta, 115: 540-547.
Daher C., Pimenta V., Bellot-Gurlet L. 2014. “Towards a non-invasive quantitative analysis of the organic components in museum objects varnishes by vibrational spectroscopies: methodological approach”, Talanta, 129: 336-345.
Dalibart M. & Servant L. 2000. « Spectroscopie dans l’infrarouge », Techniques de l’Ingénieur, P2845.
Davy H. 1815. “Some experiments and observations on the colours used in painting by the Ancients”, Philosophical Transactions of the Royal Society of London, 105: 97-124.
Ferchault de Réaumur R. A. 1727. « Idée générale des différentes manières dont on peut faire de la porcelaine et quelles sont les véritables matières de celle de la Chine », Mémoire de l’Académie royale des sciences : 185-203.
Gautier G., Bezur A., Muir K., Casadio F., Fiedler I. 2009. “Chemical fingerprinting of ready-mixed house paints of relevance to artistic production in the first half of the twentieth century. Part I: inorganic and organic pigments”, Applied Spectroscopy, 63: 597-603.
Hernanz A., Gavira-Vallejo J. M., Ruiz-López J. F., Martin S., Maroto-Valiente Á., de Balbín-Behrmann R., Menéndez M., Alcolea-González J. J. 2012. “Spectroscopy of Palaeolithic rock paintings from the Tito Bustillo and El Buxu Caves, Asturias, Spain”, Journal of Raman Spectroscopy, 43: 1644-1650.
Manzano E., Navas N., Checa-Moreno R., Rodriguez-Simón L., Capitán-Vallvey L. F. 2009. “Preliminary study of UV ageing process of proteinaceous paint binder by FT-IR and principal component analysis”, Talanta, 77: 1724-1731.
Monnier J., Neff D., Réguer S., Dillmann P., Bellot-Gurlet L., Leroy E., Foy E., Legrand L., Guillot I. 2010. “A corrosion study of the ferrous medieval reinforcement of the Amiens cathedral. Phase characterisation and localisation by various microprobes techniques”, Corrosion Science, 52: 695-710.
Monnier J., Bellot-Gurlet L., Baron D., Neff D., Guillot I., Dillmann P. 2011. “A methodology for Raman structural quantification imaging and its application to iron indoor atmospheric corrosion products”, Journal of Raman Spectroscopy, 42: 773-781.
Neff D., Reguer S., Bellot-Gurlet L., Dillmann P., Bertholon R. 2004. “Structural characterization of corrosion products on archaeological iron: an integrated analytical approach to establish corrosion forms”, Journal of Raman Spectroscopy, 35: 739-745.
Paris C., Lecomte S., Coupry C. 2005. “ATR-FTIR spectroscopy as a way to identify natural protein-based materials, tortoiseshell and horn, from their protein-based imitation, galalith”, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 62: 532-538.
Rosi F., Federici A., Brunetti B., Sgamellotti A., Clementi S., Miliani C. 2011. “Multivariate chemical mapping of pigments and binders in easel painting cross-sections by micro IR reflection spectroscopy”, Analytical and Bioanalytical Chemistry, 399: 3133-3145.
Tournié A., Prinsloo L. C., Paris C., Colomban P., Smith B. 2011. “The first in situ Raman spectroscopic study of San rock art in South Africa: procedures and preliminary results”, Journal of Raman Spectroscopy, 42: 399-406.