Aitken, M. J., 1985. Thermoluminescence Dating. London: Academic Press.
Aitken, M. J., 1998. An Introduction to Optical Dating. Oxford: Oxford University Press.
Aitken, M.J., 1990. Science-based Dating in Archaeology. Longman, England.
Bailiff , I. K., 2007. Methodological developments in the luminescence dating of brick from English late-medieval and post-medieval buildings. Archaeometry, 49, pp. 827–851.
Bailiff , I. K., Blain, S., Graves, C. P., Gurling, T., Semple, S., 2010. Uses and recycling of brick in medieval English buildings: insights from the application of luminescence dating and new avenues for further research. The Archaeological Journal, 167, pp. 165-196.
Bailiff , I.K., 2015. Luminescence Dating, Pottery and Bricks. In: W.J. Rink and J.W. Thompson, eds. 2015. The Encyclopedia of Scientifi c Dating Methods. the Springer Reference Series Rink.
Baillie, M. G. L., 1995. A Slice Through Time: Dendrochronology and Precision Dating. London: B.T. Batsford Ltd.
Batt, C., 2015. Archaeomagnetic dating. In: W.J. Rink and J.W. Thompson, eds. 2015, The Encyclopedia of Scientific Dating Methods, the Springer Reference Series Rink.
Biscontin, G., Pellizon Birelli, M., Zendri, E., 2002. Characterization of binders employed in the manufacture of Venetian historical mortars. Journal of Cultural Heritage 3, pp. 31-37.
Biscontin, G., Pellizon Birelli, M., Zendri, E., 2002. Characterization of binders employed in the manufacture of Venetian historical mortars. Journal of Cultural Heritage 3, pp. 31-37.
Blain, S., Guibert, P., Bouvier, A., Vieillevigne, E., Bechtel, F., Sapin, C., Baylé, M., 2007. TL dating applied to building archaeology: The case of the medieval church Notre-Dame-Sous-Terre (Mont- Saint-Michel, France). Radiation Measurements, 42, pp. 1483–1491.
Blain, S., Guibert, P., Prigent, D., Lanos, Ph., Oberlin, C., Sapin, Ch., Bouvier, A., Dufresne, Ph., 2011. Dating methods combined to building archaeology: the contribution of thermoluminescence to the case of the bell tower of St Martin’s church, Angers (France). Geochronometria, 38, pp.55-63.
Blain, S., Hall, Ch., 2016. Direct dating methods. In: A. Hunt A. ed. 2016. The Oxford Handbook of Archaeological Ceramic Analysis. Oxford University Press, Oxford.
Blain, S., Lanos, Ph., Bailiff , I., Guibert, P., Sapin, Ch., 2014. Early medieval brickmaking: a cross-Channel perspective based on recent luminescence and archaeomagnetic dating results. In: T. Ratilainen, R. Bernotas, Ch. Herrmann, ed. 2014, Fresh Approaches to the Brick Production and Use in the Middle Ages, Proceedings of the session ‘Utilization of Brick in the medieval period – Production, Construction, Destruction’ held at the European Association of Archaeologists (EAA) Meeting 29 August – 1 September 2012 in Helsinki, Finland, BAR International Series 2611,
Archaeopress, Oxford, pp.1-10.
Blain, S., Lanos, Ph., Bailiff , I., Guibert, P., Sapin, Ch., 2014. Early medieval brickmaking: a cross-Channel perspective based on recent luminescence and archaeomagnetic dating results. In: T.Ratilainen, R. Bernotas, Ch. Herrmann, ed. 2015. Fresh Approaches to the Brick Production and Use in the Middle Ages, Proceedings of the session ‘Utilization of Brick in the medieval period – Production, Construction, Destruction’ Held at the European Association of Archaeologists (EAA) Meeting 29 August – 1 September 2012 in Helsinki, Finland, BAR International Series 2611. Oxford: Archaeopress, pp. 1-10.
Blain, S., Maggi Ch., Hoff summer, P., 2015. Les charpentes de l’église Saint-Denis à Liège (Belgique): apports de l’archéométrie et de l’archéologie du bâti à l’histoire du site (XIe – XVIIIe siècle). Archéologie Médiévale, 45.
Blanco, M., Colucci, M. F., Gisbert, J. 2006. Modello di Distribuzione e Movimento dei Sali nei Materiali Lapidei Porosi. In: Vanni Badino & Giuseppe Baldasarre eds., Le Risorse Lapidee dall’antichità ad oggi in Area Mediterranea. Atti del convegno. Canosa di Puglia (Bari) 25-27 September 2006.
Bowman, S.G.E., 1990. Radiocarbon Dating, “Interpreting the Past” series, British Museum Publications, London.
Bowman, S.G.E., 1991. Questions of Chronology, In: S. Bowman, ed. 1991, Science and The Past, British Museum Press.
Bronk Ramsey, C. (2009). Bayesian analysis of radiocarbon dates. Radiocarbon, 51(1), 337-360.
Canas Guerrero, I. Martin Ocaña, S. and González Requena, I. “Thermal–physical aspects of materials used for the construction of rural buildings in Soria (Spain)”. Construction and Building Materials, 19 (2005) 197–211.
Cariati, F., Bruni, S., 2000. Raman Spectroscopy. In: Ciliberto, E., Spoto, G., eds. Modern Analytical Methods in Art and Archaeology. Chemical Analysis: A Series of Monographs on Analytical Chemistry and Its Applications y (Volume 155), pp. 255-278.
Castro, F., Falcucci, C., Pelosi, C., 2010. The wall paintings of the crypt of the medieval Church of Saint Andrew in Viterbo (Italy): technical examination and state of preservation. In: A. Ferrari ed., Proceedings of the 4th International Congress on “Science and Technology for the Safeguard of Cultural Heritage in the Mediterranean Basin”, 6-8 December 2009, Il Cairo (Egypt) Vol.II, p. 106.
Clarke, M., 1999. A new technique for the non-destructive identifi cation of organic pigments, dyes and inks in–situ on early medieval manuscripts, using 3–D fl uorescence refl ectance spectroscopy.In: 6th International Conference of the Associazione Italiana Prove Non Destruttive Monitoraggio Diagnostica on Non-Destructive Testing and Microanalysis for the Diagnostics and Conservation of the Cultural and Environmental Heritage, Rome, 17-20 May 1999: Vol. II, pp. 1421-1436.
Colom, X., Carrillo, F., Nogues, F., Garriga, P., 2003. Structural analysis of photodegraded wood by means of FTIR spectroscopy. Polymer Degradation and Stability Vol. 80, pp. 543-549.
Colombini, M. P., Modugno, F. (Eds.), 2009. Organic Materials in Art and Archaeology. In: Organic Mass Spectrometry in Art and Archeology, pp. 37-74.
Coustures, M. – P., Béziat, D., Tollon, F., 2003. The use of trace element analysis of entrapped slag inclusions to establish ore-bar iron links: examples from two Gallo-Roman iron-making sites in France (Les Martys, Montagne Noire, and Les Ferrys, Loiret). Archaeometry 45, pp. 599-613.
De Viguerie, L., Armando Sole, V., Walter, P., 2009. Multilayers quantitative X-ray fluorescence analysis applied to easel paintings. Analytical and Bioanalytical Chemistry Vol. 395 (7), pp. 2015- 2020.
Derrick, M. R., Stulik, D., Landry, J. M., 1999. Scientifi c Tools for Conservation - Infrared Spectroscopy in Conservation Science. Los Angeles: Getty Conservation Institute.
Donais, M. K., Duncan, B., George, D, Bizzarri, C., 2010. Comparisons of ancient mortars and hydraulic cements through in situ analyses by portable X-ray fl uorescence spectrometry. X-Ray Spectrometry 39, pp. 146–153.
Duller, G. A. T., 2008. Luminescence dating: guidelines on using luminescence dating in archaeology. Swindon, English Heritage.
Edwards, R., Bordass, W., Farrell, D., 1997. Determination of Acetic and Formic Acid in Lead Corrosion Products by Ion-exchange Chromatography. The Analyst Vol. 122, pp. 1517-1520.
F Ferretti, M., 1993. Scientifi c Investigations of Works of Art. Rome: ICCROM, pp. 29-32.
Feathers, J.K., 2003. Use of luminescence dating in archaeology. Measurement Science and Technology, 14, pp.1493 -1509. Liritzis I., Singhvi A. K., Feathers J. K., Wagner G.A., Kadereit A., Zacharias N., Li S-H., 2013. Luminescence Dating in Archaeology, Anthropology, and Geoarchaeology. An Overview. Springer Briefs in Earth System Sciences.
Ferraro, J. R., Nakamoto, K., Brown, C. W., 2003. Introductory Raman Spectroscopy. (2nd Edition). Amsterdam: Academic Press, p. 129.
Ferretti, M., 1993. Scientific Investigations of Works of Art. Rome: ICCROM, pp. 7-9.
Fotakis, C., Anglos, D., Zafi ropoulos, V., Georgiou, S., Tornari, V., 2007. Lasers in the Preservation of Cultural Heritag. Principles and Applications. London: Taylor & Francis 2006, pp. 55-117.
Franzini, M., Leoni, L., Lezzerini, M., 2000. A procedure for determining the chemical composition of binder and aggregate in ancient mortars: its application to mortars from some medieval buildings in Pisa. Journal of Cultural Heritage 1, pp. 365-373.
Gallet, Y., Genevey, A., Le Goff , M., Warmé, N., Gran-Aymerich, J., Lefèvre, A., 2009. On the use of archaeology in geomagnetism, and vice versa: recent developments in archaeomagnetism. Rendus Physique, 10, pp.630–648.
Galletti, G. C., Bocchini, P., Cam, D., Chiavari, G., Mazzeo, R., 1996. Chemical characterization of the black crust present on the stone central portal of St. Denis abbey. Fresenius J Anal Chem 357, pp. 1211-1214.
Giamello, M., Pinna, D., Porcinai, S., Sabatini, G., Siano, S., 2004. Multidisciplinary study and laser cleaning tests of marble surfaces of Porta della Mandorla, Florence. In: Proceedings of the 10th International Congress on Deterioration and Conservation of Stone, Stockholm: ICOMOS, p. 844.
Heinemeier, J., Ringbom, Å., Lindroos, A., Sveinbjörnsdóttir, Á. E., 2010. Successful AMS 14C Dating of non-hydraulic lime mortars of the medieval churches of the Åland islands, Finland. Radiocarbon, 52 (1), pp.171-204.
Hillam, J., 1987. Problems of dating and interpreting results from archaeological timbers. In: R. G. W. Ward, ed. 1987. Applications of Tree-Ring Studies: Current Research in Dendrochronology and Related Subjects. Oxford: British Archaeological Report, BAR International Series 333, pp.141– 155.
Hoadley, R. B., 1990. Identifying wood: accurate results with simple tools. Newtown: The Taunton Press Inc., p. 45.
Hocquet, F.-P., Garnir, H.-P., Marchal, A., Clar, M., Oger, C., Strivay, D., 2008. A remote controlled XRF system for fi eld analysis of cultural heritage objects. X-Ray Spectrometry 37, pp. 304–308.
Hoff summer, P., 2009. Critical aspects of dendrochronology, In: P. Hoff summer, ed. 2009, Roof Frames from the 11th to the 19th Century, Architectura Medii Aevi, III. Turnhout: Brepols, pp.99–104.
Hughes, M.J., 2009. ICP-AES analysis of ceramic building material. In: P. Drury and R.W. Simpson, 2009: Hill Hall: A Singular House Devised by a Tudor Intellectual. London: Society of Antiquaries of London, pp. 366–379.
Hugues, M. J., 2009. ICP-AES analysis of ceramic building material. In: Drury P. & Simpson R.W., Hill Hall: A Singular House Devised by a Tudor Intellectua. London: Society of Antiquaries of London, pp. 366-379.
Jull, A. J. T., Burr, G.S., 2015. Radiocarbon dating. In: W.J. Rink and J.W. Thompson, eds. 2015, The Encyclopedia of Scientifi c Dating Methods, the Springer Reference Series Rink.
Kendix, E. L., Prati, S., Joseph, E., Sciutto, G., Mazzeo, R., 2009. ATR and transmission analysis of pigments by means of far infrared spectroscopy. Anal Bioanal Chem 394, pp. 1023–1032.
Kendix, E., Moscardi, G., Mazzeo, R., Baraldi, P., Prati, S., Joseph, E., Capelli, S., 2008. Far infrared and Raman spectroscopy analysis of inorganic pigments. Journal of Raman Spectroscopy 39, pp.1104–1112.
Kigawa, R., Sano, C., Nishijima, M., Tazato, N., Kiyuna, T., Hayakawa, N., Kawanobe, W., Udagawa, S., Tateishi T., Sugiyama, J., 2013. Investigation of acetic acid bacteria isolated from the Kitora tumulus inJapan and their involvement in the deterioration of the plaster of the mural paintings. Studies in Conservation Vol. 58, No. 1, pp. 30-39.
Kite, G. C., Green, P. W. C., Veitch, N. C., Groves, M. C., Gasson, P. E., Simmonds, M. S. J., 2010. Dalnigrin, a neofl avonoid marker for the identifi cation of Brazilian rosewood (Dalbergia nigra) in CITES enforcement. Phytochemistry 71, pp. 1122-1131.
Klenz Larsen, P., 2000. Salt damage to the Medieval plaster on a vault in Fanefj ord Church. In: P.Bartos, C. Groot & J. J. Hughes eds., PRO 12: International RILEM Workshop on Historic Mortars: Characteristics and Tests, pp. 43-50.
Kordatos, E. Z., Exarchos, D. A., Stavrakos, C., Moropoulou, A., Matikas, T. E., 2013. Infrared thermographic inspection of murals and characterization of degradation in historic monuments. Construction and Building Materials 48, pp. 1261–1265.
Lakowicz, J. R., 2006. Principles of Fluorescence Spectroscopy (3rd ed.). New York: Springer Science & Business Media, pp. 1, 27 & 57.
Lanos, Ph., 1990. La datation archéomagnétique des matériaux de construction d’argile cuite, apports chronologiques et technologiques. Gallia, 47, pp.321-341.
Lanos, Ph., 1994. Pratiques artisanales des briquetiers et archéomagnétisme des matériaux d’argile cuite, une histoire de positions de cuisson. Histoire et Mesure, IX, pp.287-304. doi : 10.3406/hism.1994.1442 http://www.persee.fr/web/revues/home/prescript/article/hism_0982-
1783_1994_num_9_3_1442
Lanos, Ph., 1994. Pratiques artisanales des briquetiers et archéomagnétisme des matériaux d’argile cuite, une histoire de positions de cuisson. Histoire et Mesure, IX, pp.287-304. doi : 10.3406/hism.1994.1442 http://www.persee.fr/web/revues/home/prescript/article/hism_0982-1783_1994_num_9_3_1442
Lanos, Ph., Kovacheva, M., Chauvin, A., 1999. Archaeomagnetism, methodology and applications: implementation and practice of the archaeomagnetic method in France and Bulgaria. European Journal of Archaeology, 2 (3), pp.365–392
Liritzis, I., Zacharias, N., 2011. Portable XRF of Archaeological Artifacts: Current Research, Potentials and Limitations. X-Ray Fluorescence Spectrometry (XRF) in Geoarchaeology, pp. 109- 125.
MacKenzie, W. S., Guilford, C., 1980. Atlas of rock-forming minerals in thin section, New York: John Wiley, p. 89.
Maggetti, M., 1994. Mineralogical and Petrographical Methods for the Study of Ancient Pottery. In: 1st European Workshop on Archaeological Ceramics, F. Burragato, O. Grubessi, L. Lazzarini (Eds), Rome: Università degli Studi di Roma ‘’La Sapienza’’,pp. 23-29.
Malainey, M. E., 2010. A Consumer’s Guide to Archaeological Science. New York: Springer.
Maravelaki-Kalaitzaki, P., 2005. Innovative techniques for the characterization of encrustation on Pentelic marble from the Parthenon. In: R. Van Grieken & K. Janssens, eds 2005. Cultural Heritage Conservation and Environmental Impact Assessment by Non-Destructive Testing and Micro-Analysis, London: Taylor & Francis Group, pp. 135-148.
Marzaioli, F., Nonni, S., Passariello, I., Capano, M., Ricci, P., Lubritto, C., De Cesare, N., Eramo, G., Quirós Castillo, J. A., Terrasi, F., 2013. Accelerator Mass Spectrometry 14C dating of lime mortars: Methodological aspects and fi eld study applications at CIRCE (Italy). In: A. Zondervan, C.Prior, F.Bruhn, R. Sparks R., eds. 2013. Proceedings of the 12th International Conference on AMS, Wellington, New Zealand, 20-25 March 2011, pp. 246-251.
Mathews, J.P., 2001. Radiocarbon dating of Architectural Mortar. A Case Study in the Maya Region, Quintana Rio, Mexico. Journal of Field Archaeology, 28, pp. 395-400.
Mazzeo, R., Joseph, E., 2004. Metodi analitici micro-distruttivi per la conservazione e il restauro”. In: Monumenti in bronzo all’aperto. Esperienze di conservazione a confronto. Firenze: Nardini Editore, pp. 57 & 61.
Mc Creery, R.L., 2000. Raman spectroscopy for chemical analysis (Chemical analysis series vol.157), pp. 1-14.
McMaster, M. C., 2007. HPLC: A practical user’s guide, Inc., p. 3.
Megna, B., Rizzo, G., Ercoli, L., Parlapiano, M., 2008. Composizione, tessitura ed effi cienza delle malte degli acquedotti romani Cornelio e Figurella. In: Scienza e Beni Culturali Atti del V Congresso Nazionale di Archeometria Siracusa 26-29 Febbraio 2008, Morrone Editore, pp. 167-178.
Megna, B., Rizzo, G., Ercoli, L., Parlapiano, M., 2008. Composizione, tessitura ed efficienza delle malte degli acquedotti romani Cornelio e Figurella. In: Morrone ed. Scienza e Beni Culturali. Atti del V Congresso Nazionale di Archeometria. Siracusa 26-29 Febbraio 2008, p. 177.
Mier Buenhombre, J. L., 2005. Thermal analysis of inorganic materials. In: Universidade da Coruña ed., Thermal analysis. Fundamentals and applications to material characterization, Spain, pp. 99-110.
Miriello, D., Bloise, A., Crisci, G. M., Apollaro, C., La Marca, A., 2011. Characterization of archaeological mortars and plasters from Kyme (Turkey). Journal of Archaeological Science 38, pp. 794-804.
Moens, L., Von Bohlen, A., Vandenabeele, P., 2000. X-ray Fluorescence. Modern Analytical Methods in Art and Archaeology Vol. 155, pp. 55-79.
Mook, W.G., Waterbolk, H.T., 1985. Radiocarbon Dating, Handbooks for Archaeologists: No. 3, Strasbourg: European Science Foundation.
Musílek, L., Čechák, T., Trojek, T., 2012. X-ray fl uorescence in investigations of cultural relics and archaeological fi nds. Applied Radiation and Isotopes 70, pp. 1193–1202.
Odegard, N., Carrol, S., Zimmit, W.S., 2005. Material characterization tests for objects of art and archaeology. 2nd Edition, London: Archetype Publications.
Palomo, A., Blanco-Varela, M. T., Martinez-Ramirez, S., Puertas, F., Fortes, C., 2009. Historic Mortars: Characterization and Durability. New Tendencies for research. Madrid: Eduardo Torroja Institute (CSIC), pp. 7-8.
Pappalardo, L., De Sanoit, J., Marchetta, C., Pappalardo, G., Romano, F. P., Rizzo, F., 2007. A portable spectrometer for simultaneous PIXE and XRF analysis. X-Ray Spectrometry Vol. 36, 5, pp. 310–315.
Pappalardo, L., Romano, F. P., Garraff o, S., De Sanoit, J., Marchetta, C., Pappalardo, G., 2003. The Improved Lns Pixe-Alpha Portable System: Archaeometric Applications. Archaeometry Vol. 45, 2, pp. 333–339.
Pedemonte, E., Fornari, G., 2003. Chimica e Restauro: La scienza dei materiali per l’architettura, Venezia: Marsilio, pp. 118-120.
Pedemonte, E., Fornari, G., 2003. Chimica e restauro – La scienza dei materiali per l’architettura. Venezia: Marsilio ed., pp. 150-152.
Pesce, G. L. A., Ball, R. J., Quarta, G., Calcagnile, L., 2012. Identifi cation, Extraction and Preparation of reliable lime samples for 14C dating of plasters and mortars with the “Pure Lime Lumps” Technique. In: E. Boaretto, N.R.Rebolo Franco, eds. 2012, Proceedings of the 6th International Radiocarbon and Archaeology Symposium, Radiocarbon, 54 (3-4), pp.933-942.
Pinna, D., 2007. Sampling of biodeteriogens in monumental and archaeological areas - methods and usefulness. In: Atti del Convegno “Small samples, big objects”, München: Bayerishes Landesamt fur Denkmalpfl ege, pp. 96-104.
Pinna, D., 2007. Sampling of biodeteriogens in monumental and archaeological areas - methods and usefulness. In: Atti del Convegno “Small samples, big objects”, München: Bayerishes Landesamt fur Denkmalpflege, p. 100.
Pinna, D., Galeotti, M., Mazzeo, R. ed., 2009. Scientifi c examination for the investigation of paintings. A handbook for conservator-restorers. Firenze: Centro Di, pp.179-183.
Pollard, A. M., Batt, C. M., Stern, B., Young, S. M. M., 2007. Neutron Activation Analysis. In: Analytical Chemistry in Archaeology, Cambridge: University Press, pp. 123-136.
Pollard, A. M., Heron, C., 1996. Archaeological Chemistry. London: The Royal Society of Chemistry, pp. 66-72.
Pollard, A. M., Heron, C., 2008. Archaeological Chemistry. Cambridge: The Royal Society of Chemistry, pp. 50-55.
Pollard, M., Heron, C., 1996. Archaeological Chemistry. London: The Royal Society of Chemistry, pp. 31-36.
Preusser, F., Degering, D., Fuchs, M., Hilgers, A., Kadereit, A., Klasen, N., Krbetschek, M., Richter, D., Spencer, J.Q.G., 2008. Luminescence dating: basics, methods and applications. Eiszeitalter und Gegenwart: Quaternary Science Journal, 57, pp. 95–149.
Reimer, P. J., Bard, E., Bayliss, A., Beck, J. W., Blackwell, P. G., Bronk Ramsey, C., Grootes, P. M., Guilderson, T. P., Hafl idason, H., Hajdas, I., Hatt, C., Heaton, T. J., Hoff mann, D. L., Hogg, A. G., Hughen, K. A., Kaiser, K. F., Kromer, B., Manning, S. W., Niu, M., Reimer, R. W., Richards, D. A., Scott, E. M., Southon, J. R., Staff , R. A., Turney, C. S. M., & van der Plicht, J. (2013). IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0-50,000 Years cal BP. Radiocarbon, 55 (4).
Russo, T. E., Holmes, L. L., Harbottle, G., 2011. Limestone, Lincoln Cathedral and Neutron Activation Analysis: Pushing the Methodological Envelope. In: V. Olson ed., Working with Limestone. The Science, Technology and Art of Medieval Limestone Monuments, Farnham: Ashgate Publishing, pp. 45-58.
S Volpin, S., Appolonia, L., 1999. Le analisi di laboratorio applicate ai beni artistici policromi,Padova: Il Prato, p. 42.
Sargentis, G. F., Chatzimpiros, A., Symeonidis, N., 2009. Determination Method Of Thermal Conductivity Of Building Parts In Situ Through IR Imaging By Minimizing The Influence Of Environmental Parameters. In: Proceedings of the 11th International Conference on Environmental Science and Technology Chania, Crete, Greece, 3 – 5 September 2009.
Schmitt, A., 2011. Les études de la céramique en laboratoire; materiaux et analyses. In: André D’Anna et al. Ed. La Céramique. La Poterie, du Néolithique aux Temps Modernes, Paris: Editions Errance, pp. 55-91. 1.
Scott, D.A., 1991. Metallography and Microstructure of Ancient and Historic Metals. Los Angeles:The J. Paul Getty Trust, pp. 42 & 69-74 .
Skoog, D. A., Holler, F. J., Crouch, S. R., 2007. Principles of Instrumental Analysis (6th Edition). Andover: Thomson Brooks/Cole ed., pp. 368 & 399-422.
Soler Arechalde, A. M. Arqueomagnetismo en México 1965-2013. In: Latinmag Letters Volume 4, number 4 (2014), LL14-0402Rv, 1-14.
Sternberg, R. S., 2001. Magnetic properties and archaeomagnetism. In: D. R. Brothwell and A. M. Pollard, eds. 2001, Handbook of Archaeological Sciences. Chichester: Wiley, pp.73–79.
Striegel, M. F., Hill, J., 1996. Scientifi c Tools for Conservation. Thin-Layer Chromatography for Binding Media Analysis. Los Angeles, Getty Conservation Institute, pp. 5-13.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 133-136.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 147-151.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 162-163.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 230-233.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 237-239.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 296-325.
Stuart, B. H., 2007. Analytical Techniques in Materials Conservation. New York: John Wiley & Sons, pp. 385-389.
Taylor, R.E, Aitken, M.J., eds. 1997. Chronometric dating in Archaeology. Advances in Archaeological and Museum Science, volume 2, Oxford University.
Taylor, R.E., Bar-Yosef, O., 2014. Radiocarbon Dating, 2nd ed. Walnut Creek, California: Left Coast Press.
Toniolo, L., Poli, T., Zerbi, C. M., Casadio, F., 2006. The façade of Milan cathedral: a case of diagnosis for the intervention. In: Fort, Alvarez de Buergo, Gomez–Heras & Vazquez–Calvo eds. Heritage, Weathering and Conservation. London: Taylor and Francis, pp. 875-880.
Van Strydonck, M., Dupas, M., Dauchot-Dehon, M., 1983. Radiocarbon dating of old mortars. W. G. Mook, H. T. Waterbolk, eds. 1983, Proceedings of 14C and Archaeology, 8, pp.337-343.
Van Strydonck, M., Van der Borg, J. Y. K., de Jong, A. F. M., Keppens, E., 1992. Radiocarbon dating of lime fractions and organic material from buildings. Radiocarbon, 34 (3), pp.873-879.
Volpin, S., Appolonia, L., 1999. Le analisi di laboratorio applicate ai beni artistici policromi, Padova: Il Prato, pp. 57-59.
Volpin, S., Appolonia, L., 1999. Le analisi di laboratorio applicate ai beni artistici policromi, Padova: Il Prato, pp. 38-39.
Volpin, S., Appolonia, L., 1999. Le analisi di laboratorio applicate ai beni artistici policromi, Padova: Il Prato, pp. 45-46, 52-55.
Volpin, S., Appolonia, L., 1999. Le analisi di laboratorio applicate ai beni artistici policromi, Padova: Il Prato, pp.30-32.
Von Konow, T., 2003. Aggregate grain size distribution – A major infl uence on many properties of lime mortars for restoration. In: EUROMAT 2003, Symposium P2 – Materials and Conservation of Cultural Heritage, EPFL – Lausanne, pp. 1-9.
Von Konow, T., 2003. Aggregate grain size distribution – A major infl uence on many properties of lime mortars for restoration. In: EUROMAT 2003, Symposium P2 – Materials and Conservation of Cultural Heritage, EPFL – Lausanne, pp. 1-9.
Digital resources
Architectural Paint Investigation, [online] Available at http://www.helenhughes-hirc.com/paint_investigation.php [Accessed 12 February 2015].
Badr, J., Huck-Stiasny, C., Drewello, R., 2010. Gypsum Mortars of the Khoja Zainuddin Mosque in Bukhara (Uzbekistan) – A Contribution to Building Archaeological Studies. In: J. Válek, C. Groot, J.J. Hughes, eds 2010. 2nd Conference on Historic Mortars - HMC 2010 and RILEM TC 203-RHM final workshop, pp. 1-9. [online] Available at https://www.uni-bamberg.de/fi leadmin/uni/fakultaeten/ggeo_professuren/restaurierungswissenschaft/drewello/2010_RILEM_Gypsum_Mortars__doc.pdf [Accessed 16 March 2015]
Blanco, M., Colucci, M. F., Franco, B., Gisbert, J., López, P., Sanchez, A., 2006. I Sali Negli Interventi di Restauro: Cartografi a e Diagnostica. In: Vanni Badino & Giuseppe Baldasarre eds., Le Risorse Lapidee dall’antichità ad oggi in Area Mediterranea. Atti del convegno. Canosa di Puglia (Bari) 25-27 September 2006, pp. 123-128. [online] Available at http://www.researchgate.net/publication/39711158_I_Sali_Negli_Interrventi_di_Restauro_Cartografa_e_Diagnostica [Accessed 16 February 2015].
Bruni, S., Indirli, M., Maino, G., Marghella, G., Marzo, A., Moretti, L., 2012. Analysis by Scanning Electron Microscopy and Microanalysis of Sandstones in Bologna, Petra and Mtskheta. EAI Speciale II - Knowledge, Diagnostics and Preservation of Cultural Heritage, p. 136. [online] Available at http://www.enea.it/it/ pubblicazioni/EAI/anno-2012/knowledge-diagnostics-and-preservation-of-cultural-heritage/analysis- by-scanning-electron-microscopy-and-microanalysis-of-sandstones-in-bologna-petra-and-mtskheta [Accessed 20 February 2015].
Buj, O., Gisbert, J., 2010. Infl uence of pore morphology on the durability of sedimentary building stones from Aragon (Spain) subjected to standard salt decay tests. Environ Earth Sci Vol. 61(7), pp. 1327-1336. [online] Available at http://www.researchgate.net/publication/227250629_Influence_of_pore_morphology_on_the_durability_of_sedimentary_building_stones_from_Aragon_(Spain)_subjected_to_standard_salt_decay_tests [Accessed 15 May 2015].
Büttner, S., 2010. L’analyse des liants de maçonnerie et son apport à la compréhension chronologique et technique de la construction. In: L’Archéologie des Bâtiments en question – un outil pour les connaître, les conserver et les restaurer, Actes du colloque ICOMOS, Liège 2010,pp. 1-12. [online] Available at https://www.academia.edu/13048931/B%C3%BCttner_S._2014_L_analyse_des_liants_de_ma%C3%A7onnerie_et_son_apport_%C3%A0_la_compr%C3%A9hension_
chronologique_et_technique_de_la_construction_dans_L_arch%C3%A9ologie_des_b%C3%A2timents_en_question._Un_outil_pour_les_conna%C3%AEtre_les_conserver_et_les_restaurer_Li%C3%A8ge_2010_SPW_Namur_p._103_114 [Accessed 15 May 2015].
CERN Accelerating Science (the European Organization for Nuclear Research), http://home.web.cern.ch/about/how-accelerator-works
Casadio, F., Toniolo, L., 2004. Polymer treatments for stone conservation: methods of evaluation of penetration depth. Journal of the American Institute for Conservation 43, pp. 3–21. [online] Available at http://www.maneyonline.com/doi/pdfplus/10.1179/019713604806112623 [Accessed 16 March 2015]
Corbeil, M.-C., 2004. Applications of X-ray Diffraction in Conservation Science and Archaeometry. Advances in X-ray Analysis Vol. 47, pp. 18-29. [online] Available at http://www.icdd.com/resources/axa/vol47/v47_02.pdf [Accessed 8 February 2015].
Demortier, G., 2004. PIXE, PIGE and NMR study of the masonry of the pyramid of Cheops at Giza.Nuclear Instruments and Methods in Physics Research B Vol. 226, p. 100. [online] Available at http://www.nuclear.lu.se/fi leadmin/nuclear/Undervisning/TillSubFys/PIXE-Cheops.pdf [Accessed
10 March 2015].
Dillman, P., L’ Héritier, M., 2007. Slag inclusion analyses for studying ferrous alloys employed in French medieval buildings: supply of materials and diff usion of smelting processes. Journal of Archaeological Science 34, p. 1811. [online] Available at http://www.facsc.ulg.ac.be/upload/docs/application/pdf/2014-02/leroy_jas-provenance.pdf [Accessed 8 April 2015].
Dotsika, E., Psomiadis, D., Poutoukis, D., Raco, B., Gamaletsos, P., 2009. Isotopic analysis for degradation diagnosis of calcite matrix in mortar. Anal Bioanal Chem 395, pp. 2227–2234. [online] Available at http://www.ims.demokritos.gr/archae/Publications_Dotsika/Isotopic_analysis.pdf [Accessed 8 February 2015].
Friolo, K. H., Stuart, B., Ray, A., 2003. Characterization of weathering of Sydney sandstones in heritage buildings. Journal of Cultural Heritage 4 (3), pp. 211-220. [online] Available at http://attach3.bdwm.net/attach/0Announce/groups/GROUP_3/ArchSciTech/D73A0CEAC/DC6F42F27/D59990343/M.1261975253.A/%E6%82%89%E5%B0%BC%E6%96%87%E5%8C%96%E9%81%97%E5%9D%80%E7%9A%84%E7%A0%82%E5%B2%A9%E9%A3%8E%E5%8C%96-9.pdf [Accessed 8 April 2015].
Garagnani, G. L., Piasentini, F., Venturi Pagani Cesa, G., 2006. Caratterizzazione micro strutturale e meccanica di leghe di rame da fonderia per applicazioni artistiche. La metallurgia Italiana. [online] Available at http://www.gruppofrattura.it/ors/index.php/aim/index [Accessed 10 February 2015].
Genestar, C., Pons, C., 2003. Ancient covering plaster mortars from several convents and Islamic and Gothic palaces in Palma de Mallorca (Spain). Analytical characterization. Journal of Cultural Heritage 4, pp. 291–298. [online] Available at http://isiarticles.com/bundles/Article/pre/pdf/1226. pdf [Accessed 8 February 2015].
Genestar, C., Pons, C., 2003. Ancient covering plaster mortars from several convents and Islamic and Gothic palaces in Palma de Mallorca (Spain). Analytical characterization. Journal of Cultural Heritage 4, pp. 291–298. [online] Available at http://isiarticles.com/bundles/Article/pre/pdf/1226.pdf [Accessed 8 February 2015].
Genestar, C., Pons, C., 2003. Ancient covering plaster mortars from several convents and Islamic and Gothic palaces in Palma de Mallorca (Spain). Analytical characterization. Journal of Cultural Heritage 4, pp. 291–298. [online] Available at http://isiarticles.com/bundles/Article/pre/pdf/1226.pdf [Accessed 8 February 2015].
Genestar, C., Pons, C., 2003. Ancient covering plaster mortars from several convents and Islamic and Gothic palaces in Palma de Mallorca (Spain). Analytical characterization. Journal of Cultural Heritage 4, pp. 291–298. [online] Available at http://isiarticles.com/bundles/Article/pre/pdf/1226.pdf [Accessed 8 February 2015].
Giesche, H., 2006. Mercury Porosimetry: a General (Practical) Overview. Part. Part. Syst. Charact.23, pp. 1-11. [online] Available at http://people.alfred.edu/~giesche/Publications_fi les/06-1-PPSC%20(Hg-poro%20practical).pdf [Accessed 15 May 2015].
Glascock, M. D., Neff , H., Vaughn, K. J., 2004. Instrumental Neutron Activation Analysis and Multivariate Statistics for Pottery Provenance. Hyperfine Interactions 154, pp. 95–105. [online] Available at https://www.academia.edu/211914/Instrumental_Neutron_Activation_Analysis_and_Multivariate_Statistics_for_Pottery_Provenance [Accessed 1 April 2015].
HERCULES Center, Universidade de Évora, NEWSLETTER 2012, p. 5 [online] Available at http://www.
hercules.uevora.pt/newsletter/newsletter2012(5) [Accessed 20 February 2015]
Hou, X., Jones, B. T., 2000. Inductively Coupled Plasma/Optical Emission Spectrometry. In: R.A.Meyers ed., Encyclopedia of Analytical Chemistry, John Wiley & Sons Ltd., pp. 9468–9485. [online] Available at http://www.unil.ch/idyst/fi les/live/sites/idyst/fi les/shared/Labos/Hou%26Jones_2000.pdf [Accessed 8 April 2015].
How an accelerator works, [online] Available at http://home.web.cern.ch/about/how-acceleratorworks [Accessed 10 March 2015].
Kacík, F., Šmíra, P., Kačíková, D., Reinprecht, L., Nasswettrová, A., 2014. Chemical Changes in Fir wood from Old Buildings due to Ageing. Cellulose Chemistry and Technology 48 (1-2), pp.79-88. [online] Available at http://www.cellulosechemtechnol.ro/pdf/CCT1-2(2014)/p.79-88.pdf [Accessed 21 April 2015].
Marocchi, M., Dellisanti, F., Bargossi, G. M., Gasparotto, G., Grillini, G. C., Foschini A., Rossi, P. L., 2010. SEM-XRD investigation of deterioration morphologies and consolidation prior to restoration: the case of Porta Nuova in Ravenna (Italy). Per. Mineral., 79 (1), pp. 81-93. [online] Available at http://tetide.geo. uniroma1.it/riviste/permin/testi/V79.1/2010PM0004.pdf [Accessed 21 February 2015].
Mazzeo, R., Joseph, E., Minguzzi, V., Grillini, G., Baraldi, P., Prandstraller, D., 2006. Scientific investigations of the Tokhung-Ri tomb mural paintings (408 A.D.) of the Koguryo era, Democratic People’s Republic of Korea. Journal of Raman Spectroscopy 37, pp. 1086–1097. [online] Available at http://www.researchgate.net/publication/227733363_Scientifi c_investigations_of_the_TokhungRi_tomb_mural_paintings_(408_A.D.)_of_the_Koguryo_era_Democratic_People’s_Republic_of_Korea [Accessed 18 March 2015]
Nair, J., 2008. Microbial Culture and Applications. In: Introduction to Biotechnology and Genetic Engineering, Hingham, Massachusetts - New Delhi, India: Infi nity Science Press LLC, pp. 545- 551. [online] Available at https://thunderbooks.fi les.wordpress.com/2009/05/introduction-tobiotechnology- and-genetic-engineering-infi nity-2008.pdf [Accessed 20 May 2015].
Naseerutheen, A., Ravisankar, R., Raja Annamalai, G., Chandrasekaran, A., 2013. Application of TGDTA to study of Ancient Potteries from Kaveripakkam, Vellore district, Tamilnadu, India. CJBAS Vol. 1 Issue 01, pp. 44-48. [online] Available at http://www.cjbas.com/archive/CJBAS-13-01-01-06.pdf [Accessed 8 February 2015].
Qingfeng Sun, Yun Lu, Jinchun Tu, Dongjiang Yang, Jun Cao, and Jian Li, 2013. “Bulky Macroporous
TiO2 Photocatalyst with Cellular Structure via Facile Wood-Template Method,” International Journal of
Photoenergy, Article ID 649540, 6 pages, 2013. doi:10.1155/2013/649540. [online] Available at http://www.
hindawi.com/journals/ijp/2013/649540/ [Accessed 23 February 2015]
Stuart, B. H., 2004. Infrared Spectroscopy: Fundamentals and Applications, [online] Available at http://www.kinetics.nsc.ru/chichinin/books/spectroscopy/Stuart04.pdf [Accessed 18 March 2015]
Svahn, H., 2006. Chapter 4: NDT Methods – Theory and Application. In: Final Report for the Research and Development Project. Non-Destructive Field Tests in Stone Conservation - Literature Study, Stockholm: Riksantikvarieδmbetet, pp. 21-27. [online] Available at http://www.raa.se/publicerat/9172094354.pdf [Accessed 8 February 2015].
Thoury, M., Elias, M., Frigerio, J. M., Barthou, C., 2007. Non-destructive Varnish Identifi cation by Ultraviolet Fluorescence Spectroscopy. Applied Spectroscopy, Vol. 61, Issue 12, pp. 1275- 1282. [online] Available at http://www.researchgate.net/publication/5653543_Nondestructive_varnish_identifi cation_by_ultraviolet_fl uorescence_spectroscopy [Accessed 8 February 2015].
Vandenabeele, P., Edwards, H. G. M., Moens, L., 2006. A Decade of Raman Spectroscopy in Art and Archaeology. Chemical reviews Vol. 107, Number 3, pp. 676-677. [online] Available at http://www.researchgate.net/publication/6490127_A_Decade_of_Raman_Spectroscopy_in_Art_and_Archaeology [Accessed 26 March 2015]
Vandenabeele, P., Garcia-Moreno, R., Mathis, F., Leterme, K., Van Elslande, E., Hocquet, F. –P., Rakkaa, S., Laboury, D., Moens, L., Strivay, D., Hartwig, M., 2009. Multi-disciplinary investigation of the tomb of Menna (TT69), Theban Necropolis, Egypt. Spectrochimica Acta Part A 73, pp. 546– 552. [online] Available at https://orbi.ulg.ac.be/bitstream/2268/1372/1/menna%20spectrochimica.pdf [Accessed 26 March 2015]
Vandenabeele, P., Pagès-Camagna, S., Coupry, C., 2004. Raman spectroscopy in art and archaeology. Journal of Raman Spectroscopy, 35, pp. 607-609. [online] Available at http://www.researchgate.net/publication/43327174_Raman_Spectroscopy_in_Art_and_Archaeology [Accessed 26 March 2015]
Weber, G., Strivay, D., Martinot, L., Garnir, H., 2002. Use of PIXE–PIGE under variable incident angle for ancient glass corrosion measurements. Nuclear Instruments and Methods in Physics Research B 189, pp. 350–357. [online] Available at http://www.ipnas.ulg.ac.be/garnir/publications/2002PIXEglassNIM.pdf [Accessed 10 March 2015].
Zallen, R. 2014. Amorphous solid, [online] Available at http://www.britannica.com/EBchecked/topic/21328/amorphous-solid [Accessed 20 March 2015]
