[1. Papliaka, Z. E., Wendland, N., Varella, E. A.: The Protective Role of Titanium Dioxide Pigments on Pictorial Artworks in Contaminated Indoor Environments. e-PS, 2010, 7, 48-54.]Search in Google Scholar
[2. Berkey, M., Shugar, A., Bartlett, K.: Effects of Aging Verdigris in Artist Prepared Paint. Poster, Buffalo State College, 2009, [2015-03-15]. URL: http://www.academia.edu/4281352/_2009_Effects_of_Aging_Verdigris_in_Artist_Prepared_Paint_Berkey_Shugar_and_Bartlett_]Search in Google Scholar
[3. Slánský, B.: Technika v malířské tvorbě. I. díl - malířský a restaurátorský materiál. SNTL, 1976, 223-224.]Search in Google Scholar
[4. Eastaugh, N., Et Al.: Pigment Compendium: A Dictionary and Optical Microscopy of Historic. Elsevier, 2008.10.4324/9780080943596]Search in Google Scholar
[5. Šimůnková, E.; Bayerová, T.: Pigmenty. STOP, 1999, 57-58.]Search in Google Scholar
[6. Rutheford, G. J., Et Al.: Painting materials. A short encyclopedia. New York Dover Publication, 1966.]Search in Google Scholar
[7. Plesters, J.: Ultramarine Blue, Natural and Artificial. Studies in Conservation, 1966,11 (2), 62-91.10.2307/1505446]Search in Google Scholar
[8. Ware, M.: Prussian Blue: Artists‘ Pigment and Chemists‘ Sponge. Journal of Chemical Education, 2008, 85 (5), 612-621.10.1021/ed085p612]Search in Google Scholar
[9. Samane, L., Et Al.: Fading of modern Prussian blue pigments in linseed oil medium. Journal of Analytical Atomic Spectrometry, 2011, 26, 930-941.10.1039/c0ja00234h]Search in Google Scholar
[10. Kirby, J.; Saunders, D.: Fading and Colour Change of Prussian Blue: Methods of Manufacture and the Influence of Extenders. National Gallery Technical Bulletin, 2004, 25, 73-99.]Search in Google Scholar
[11. Banik, G.: Naturwissenschaftliche Untersuchungen zur Aufklärung des Kupferfraβes in graphischen Kunstwerken. Das Papier, 1982, 36, 438-448.]Search in Google Scholar
[12. Švarcová, S., Et. Al.: Non-destructive micro-analytical differentiation of copper pigments in paint layers of works of art using laboratory-based techniques. Spectrochimica Acta, 2014, 132 (A), 514-525.10.1016/j.saa.2014.05.02224892529]Search in Google Scholar
[13. De La Roja, J. M.; Baonza, V. G.; San Andrés, M.: Application of Raman microscopy to the characterization of different verdigris variants obtained using recipes from old treatises. Spectrochimica Acta, 2007, 68 (A), 1120-1125.10.1016/j.saa.2007.06.05317869165]Search in Google Scholar
[14. Kuhn, H: Verdigris and Copper Resinate. Artists′ Pigmente. A Handbook of Their History and Characteristics,1989, 2, 131-154.]Search in Google Scholar
[15. Mactaggart, P., Mactaggart, A.: A Pigment Microscopist′s Notebook. 3rd ed.,1998, 14-15.]Search in Google Scholar
[16. Hofenk De Graaff, J. H.: The Colourful Past – Origins, Chemistry and Identification of Natural Dyestuffs. Archytape, 2004.]Search in Google Scholar
[17. Čopíková, J., et. al.: Přírodní barevné látky. Chemické listy, 2005, 99, 802 – 816.]Search in Google Scholar
[18. Saunders, D., Kirby, J.: Wavelengt Dependent Fading of Artist′s Pigments. Preventive Conservation, Practice, Theory and Research.1994, 190-194.10.1179/sic.1994.39.Supplement-2.190]Search in Google Scholar
[19. Saunders, D.: Light – induced Colour Changes in Red and Yellow Lake Pigments. National Gallery Technical Bulletin. 1994, 15, 79-97]Search in Google Scholar
[20. Hegr, M.: Technika malířského umění. Umělecká Beseda v Praze, 1941, s. 58.]Search in Google Scholar
[21. Milichovský, M., et al.: Návody pro laboratorní cvičení z chemické technologie papíru a celulózy – I. část. VŠCHT v Pardubicích, 1979, s. 44.]Search in Google Scholar
[22. Hashimoto, A., et al.: Simple, Rapid and Non-Destructive Determination of Nitrate Nitrogen Content Using Mid-Infrared Spectroscopic Method. In. IAALD AFITA WCCA 2008 – World Conference on Agricultural Information and IT. 2008, 235-240.]Search in Google Scholar
[23. Socrates, G.: Infrared Characteristic Group Frequencies – tables and charts. 3rd ed., 2001.]Search in Google Scholar
[24. Scott, D. A.: Měď a bronz v umění: koroze, barviva, konzervace. Conservation. Getty Publications, 2002, [2015-04-16]. URL: http://www.sups.info/download/scott_med%20a%20bronz_preklad.pdf]Search in Google Scholar
[25. Conti, C., et al.: The detection of copper resinate pigment in works of art: contribution from Raman spectroscopy. J. Raman Spectrosc., 2014, 45, 1186–1196.10.1002/jrs.4455]Search in Google Scholar
[26. San Andrés, M., et al.: Verdigris pigment: a mixture of compounds. Input from Raman spectroscopy. J. Raman Spectrosc., 2010, 41, 1468-1476.10.1002/jrs.2786]Search in Google Scholar
[27. Zaffino, CH., et al.: Exploiting external reflection FTIR spectroscopy for the in-situ identification of pigments and binders in illuminated manuscripts. Brochantite and posnjakite as a case study. Spectrochimica Acta, 2015, 136 (A), 1076–1085.10.1016/j.saa.2014.09.13225459505]Search in Google Scholar
[28. Buti, D., et al.: In-situ identification of copper-based green pigments on paintings and manuscripts by reflection FTIR. Anal. Bioanal. Chem., 2013, 405, 2699–2711.10.1007/s00216-013-6707-6]Search in Google Scholar
[29. Derrick, M. R., Stulik, D., Landry, J. M.: Infrared spectroscopy in conservation science. The Getty Conservation Institute, 1999.]Search in Google Scholar
[30. Johan, M. R., et al.:Annealing Effects on the Properties of Copper Oxide Thin Films Prepared by Chemical Deposition. Int. J. Electrochem. Sci.,2011,6, 6094 – 6104.]Search in Google Scholar
[31. Musumeci, A., Frost, R. L.: A spectroscopic and thermo analytical study of the mineral hoganite. Spectrochimica Acta, 2007, 67 (A), 48–57.10.1016/j.saa.2006.05.037]Search in Google Scholar
[32. Musumeci, A., et al: A spectroscopic study of the mineral paceite (calcium acetate). Spectrochimica Acta, 2007, 67 (A), 649–661.10.1016/j.saa.2006.07.045]Search in Google Scholar
[33. Frost, R. L., et al: Raman spectroscopy of likasite at 298 and 77K. Spectrochimica Acta, 2005, 61 (A), 607–612.10.1016/j.saa.2004.05.014]Search in Google Scholar
[34. Xu, J. F., et al.: Raman Spectra of CuO Nanocrystal. Journal of Raman Spectroscopy, 1999, 30, 413–415.10.1002/(SICI)1097-4555(199905)30:5<413::AID-JRS387>3.0.CO;2-N]Search in Google Scholar
[35. Chou, M. H., et al: Confocal Raman spectroscopic mapping studies on a single CuO nanowire. Applied Surface Science, 2008, 254, 7539–7543.10.1016/j.apsusc.2007.12.065]Search in Google Scholar
[36. Meyer, B. K., et al: Binary copper oxide semiconductors: From materials towards devices. Phys. Status Solidi B, 2012, 249 (8), 1487–1509.10.1002/pssb.201248128]Search in Google Scholar