| referencetext | 1. Járó, M. Gold embroidery and fabrics in europe: XI–XIV centuries. Gold Bull. 1990, 23, 40–57. [CrossRef]
2. Karatzani, A. Metal threads: The historical development. In Proceedings of the Traditional Textile Craft: An Intangible Cultural Heritage? Ebert, C., Frisch, S., Harlow, M., Strand, E.A., Bjerregaard, L., Eds.; University of Copenhagen: Copenhagen, Denmark,
2014; pp. 163–174.
3. Csiszár, G.; Ungár, T.; Járó, M. Correlation between the sub-structure parameters and the manufacturing technologies of metal
threads in historical textiles using X-ray line profile analysis. Appl. Phys. A Mater. Sci. Process. 2013, 111, 897–906. [CrossRef]
4. Martínez, B.; Piquero-Cilla, J.; Montoya, N.; Doménech-Carbó, M.T.; Doménech-Carbó, A. Electrochemical analysis of gold
embroidery threads from archeological textiles. J. Solid State Electrochem. 2018, 22, 2205–2215. [CrossRef]
5. Abdel-Kareem, O.; Harith, M.A. Evaluating the use of laser radiation in cleaning of copper embroidery threads on archaeological
Egyptian textiles. Appl. Surf. Sci. 2008, 254, 5854–5860. [CrossRef]
6. Hacke, A.M.; Carr, C.M.; Brown, A.; Howell, D. Investigation into the nature of metal threads in a Renaissance tapestry and the
cleaning of tarnished silver by UV/Ozone (UVO) treatment. J. Mater. Sci. 2003, 38, 3307–3314. [CrossRef]
7. Weiszburg, T.G.; Gherdán, K.; Ratter, K.; Zajzon, N.; Bendo, Z.; Radnóczi, G.; Takács, Á.; Váczi, T.; Varga, G.; Szakmány, G. Medieval Gilding Technology of Historical Metal Threads Revealed by Electron Optical and Micro-Raman Spectroscopic Study of Focused Ion Beam-Milled Cross Sections. Anal. Chem. 2017, 89, 10753–10760. [CrossRef] [PubMed]
8. Ferreira, T.; Moreiras, H.; Manhita, A.; Tomaz, P.; Mirão, J.; Dias, C.B.; Caldeira, A.T. The Liturgical Cope of D. Teotónio of
Braganza: Material Characterization of a 16th Century Pluviale. Microsc. Microanal. 2015, 21, 2–14. [CrossRef] [PubMed]
9. Karatzani, A. Study and analytical investigation of metal threads from Byzantine/Greek ecclesiastical textiles. X-ray Spectrom.
2008, 37, 410–417. [CrossRef]
10. Šimic ́, K.; Zamboni, I.; Fazinic ́, S.; Mudronja, D.; Sovic ́, L.; Gouasmia, S.; Soljacˇic ́, I. Comparative analysis of textile metal threads
from liturgical vestments and folk costumes in Croatia. Nucl. Instrum. Methods Phys. Res. Sect. B Beam Interact. Mater. Atoms 2018,
417, 115–120. [CrossRef]
11. Duran, A.; Perez-Maqueda, R.; Perez-Rodriguez, J.L. Degradation processes of historic metal threads used in some Spanish and
Portuguese ornamentation pieces. J. Cult. Herit. 2019, 36, 135–142. [CrossRef]
12. Oraltay, R.G.; Karadag, R. Surface Investigation of Metal Threads and Solid Metals of Ottoman Textiles in the Topkapi Palace
Museum. Stud. Conserv. 2020, 65, 59–64. [CrossRef]
13. Muros, V.; Wärmländer, S.K.T.S.; Scott, D.A.; Theile, J.M. Characterization of 17th-19th century metal threads from the colonial
andes. J. Am. Inst. Conserv. 2007, 46, 229–244. [CrossRef]
14. Járó, M.; Gál, T.; Tóth, A. The Characterization and Deterioration of Modern Metallic Threads. Stud. Conserv. 2000, 45, 95–105.
[CrossRef]
15. Gunsalus, H.C. An Exhibition of Japanese Textiles; The Art Institute of Chicago: Chicago, IL, USA, 1934; Volume 28.
16. Moriyama, A. Japanese Textile Culture The Example of Junichi Arai and Five Other Creators. In A Companion to Textile Culture;
Harris, J., Ed.; John Wiley & Sons: Hoboken, NJ, USA, 2020; pp. 353–370.
17. Priest, A.; Simmons, P. Chinese Textiles: An Introduction to Their History, Sources, Techniques, Symbolism, and Use; The Metropolitan
Museum of Art: New York, NY, USA, 1934.
18. Nomura, S. Ancient Chinese and Japanese Nishiki and Kinran Brocades; N. Sawyer & Son: Boston, MA, USA, 1914.
19. Neighbourgh Parent, M.; Japanese Architecture and Art Net Users System (JAANUS). Kinran. Available online: http://www.aisf.
or.jp/~{}jaanus/ (accessed on 9 July 2021).
20. Scidmore, E.R. Japanese textiles: Brocades and crapes. Harpers Bazar 1897, 30, 703.
21. Parry-Williams, T. Made-by-hand: [Re]valuing traditional (Japanese) textile practices for contemporary design. Craft Res. 2015, 6,
165–186. [CrossRef]
22. Robinson, H.R. Oriental Armour; Walker & Co.: New York, NY, USA, 1967.
23. Sakakibara, K. The Manufacture of Armour and Helmets in Sixteenth Century Japan (Cho-Kokatchu- Seisakuben); Robinson, H.R., Ed.;
Charles E. Tuttle Company Inc.: Rutland, VT, USA; Tokyo, Japan, 1964.
24. Perez-Rodriguez, J.L.; Perez-Maqueda, R.; Franquelo, M.L.; Duran, A. Study of the thermal decomposition of historical metal
threads. J. Therm. Anal. Calorim. 2018, 134, 15–22. [CrossRef]
25. Popowich, A.K.; Cleland, T.P.; Solazzo, C. Characterization of membrane metal threads by proteomics and analysis of a 14th c.
thread from an Italian textile. J. Cult. Herit. 2018, 33, 10–17. [CrossRef]
26. Nord, A.G.; Tronner, K. A Note on the Analysis of Gilded Metal Embroidery Threads. Stud. Conserv. 2000, 45, 274–279.
27. Perez-Rodriguez, J.L.; Albardonedo, A.; Robador, M.D.; Duran, A. Spanish and Portuguese gilding threads: Characterization
using microscopic techniques. Microsc. Microanal. 2018, 24, 574–590. [CrossRef]
28. Bergstrand, M.; Hedhammar, E. European Metal Threads in Swedish Churches 1600-1751. Stud. Conserv. 2006, 51, 11–28. [CrossRef]
29. Hacke, A.-M.; Carr, C.M.; Brown, A. Characterisation of metal threads in Renaissance tapestries. In Proceedings of the Interna-
tional Conference on Metals Conservation, Canberra, Australia, 4–8 October 2004; pp. 71–78.
30. Karatzani, A.; Rehren, T. The use of metal threads and decorations in Byzantine-Greek Orthodox ecclesiastical textiles. JOM 2006,
58, 34–37. [CrossRef]
31. Kohara, N.; Sasa, Y.; Sakurai, K.; Uda, M. A Note on the Characterization of Metal Threads in Historic Textiles Handed down by
the Ainu People. Stud. Conserv. 1998, 43, 109–113.
32. Costa, V.; de Reyer, D.; Betbeder, M. A note on the analysis of metal threads. Stud. Conserv. 2012, 57, 112–115. [CrossRef]
33. Rezic ́,I.;C ́urkovic ́,L.;Ujevic ́,M.Simplemethodsforcharacterizationofmetalsinhistoricaltextilethreads.Talanta2010,82,
237–244. [CrossRef]
34. Cybulska, M.; Jedraszek-Bomba, A.; Kuberski, S.; Wrzosek, H. Methods of chemical and physicochemical analysis in the
identification of archaeological and historical textiles. Fibres Text. East. Eur. 2008, 16, 67–73.
35. Joosten, I.; Van Bommel, M.R.; Keijzer, R.H.D.; Reschreiter, H. Micro analysis on hallstatt textiles: Colour and condition. Microchim. Acta
2006, 155, 169–174. [CrossRef]
36. Ok, S.Y.; Seon, Y.L. Study on the Form and Character of Gold Thread in Weave with Supplementary Gold Wefts Embroidery.
J. Korean Soc. Costume 2013, 63, 79–93.
37. Kim, J.E.; Yu, A.J.; Han, Y.B.; Chung, Y.J. Study of Characteristics for Red Adhesive in Traditional Gold Thread. J. Korean Conserv. Sci.
2016, 32, 43–49. [CrossRef]
38. Luraschi, M. Il Samurai. Da Guerriero a Icona; Silvana Editoriale: Milano, Italy, 2018.
39. Schindelin, J.; Arganda-Carreras, I.; Frise, E.; Kaynig, V.; Longair, M.; Pietzsch, T.; Preibisch, S.; Rueden, C.; Saalfeld, S.; Schmid, B.; et al.
Fiji: An open-source platform for biological-image analysis. Nat. Methods 2012, 9, 676–682. [CrossRef] [PubMed]
40. Menges, F. Spectragryph—Optical Spectroscopy Software, Version 1.2.15 2021. Available online: https://www.effemm2.de/
spectragryph/ (accessed on 9 July 2021).
41. Maréchal, Y.; Chanzy, H. The hydrogen bond network in I(β) cellulose as observed by infrared spectrometry. J. Mol. Struct. 2000,
523, 183–196. [CrossRef]
42. Quaglierini, C. Chimica Delle Fibre Tessili; Zanichelli: Bologna, Italy, 1989.
43. Ranalli, G.; Bosch-Roig, P.; Crudele, S.; Rampazzi, L.; Corti, C.; Zanardini, E. Dry biocleaning of artwork: An innovative
methodology for Cultural Heritage recovery? Microb. Cell 2021, 8, 91–105. [CrossRef]
44. Sasaki, S. Materials and Techniques. In The Hotei Encyclopedia of Japanese Woodblock Prints; Hotei Publishing: Amsterdam, The Netherlands,
2005; pp. 325–347.
45. Quattrini, M.V.; Ioele, M.; Sodo, A.; Priori, G.F.; Radeglia, D. A seventeenth century Japanese painting: Scientific identification of
materials and techniques. Stud. Conserv. 2014, 59, 328–340. [CrossRef]
46. Chukanov, N.V. Infrared Spectra of Mineral Species—Extended Library; Springer Science+Business Media: Dordrecht, The Netherlands,
2014; Volume 1, ISBN 9789400771277.
47. Bugini, R.; Corti, C.; Folli, L.; Rampazzi, L. Unveiling the Use of Creta in Roman Plasters: Analysis of Clay Wall Paintings From
Brixia (Italy). Archaeometry 2017, 59, 84–95. [CrossRef]
48. Sansonetti, A.; Andreotti, A.; Bertasa, M.; Bonaduce, I.; Corti, C.; Facchin, L.; La Nasa, J.; Spiriti, A.; Rampazzi, L. Territory and
related artworks: Stuccoworks from the lombard lakes. J. Cult. Herit. 2020, 46, 382–398. [CrossRef]
49. Xia, J.; Lin, J.; Xu, Y.; Chen, Q. On the UV-induced polymeric behavior of chinese lacquer. ACS Appl. Mater. Interfaces 2011, 3,
482–489. [CrossRef] [PubMed]
50. Bugini, R.; Corti, C.; Folli, L.; Rampazzi, L. Roman Wall Paintings: Characterisation of Plaster Coats Made of Clay Mud. Heritage
2021, 4, 48. [CrossRef]
51. Burmester, A. The scientific investigation of two Japanese dance masks. In Proceedings of the 17th International Symposium on
the Conservation and Restoration of Cultural Property: Conservation of Urushi Objects, Tokyo, Japan, 10–12 November 1993;
pp. 127–146.
52. Salvemini, F.; Grazzi, F.; Agostino, A.; Iannaccone, R.; Civita, F.; Hartmann, S.; Lehmann, E.; Zoppi, M. Non-invasive character-
ization through X-ray fluorescence and neutron radiography of an ancient Japanese lacquer. Archaeol. Anthropol. Sci. 2013, 5,
197–204. [CrossRef]
53. Giumlia-Mair, A.; Meriani, S.; Lucchini, E. Indagini archeometallurgiche su dorature antiche: Analisi, tecniche e varianti. In
Proceedings of the I Bronzi Antichi: Produzione e Tecnologia, Grado-Aquileia, Italy, 22–26 May 2001; pp. 338–343.
54. Nord, A.G.; Tronner, K.; Thorén, C. Discolouration of Gold Decorations. Stud. Conserv. 2018, 63, 189–193. [CrossRef]
55. Derrick, M.; Stulik, D.; Laundry, J. Infrared Spectroscopy in Conservation Science; The Getty Conservation Institute: Los Angeles, CA,
USA, 1999; ISBN 9781119130536.
56. Rampazzi, L.; Brunello, V.; Campione, F.P.; Corti, C.; Geminiani, L.; Recchia, S.; Luraschi, M. Non-invasive identification of
pigments in Japanese coloured photographs. Microchem. J. 2020, 157, 36–42. [CrossRef]
57. Caley, E.R. Orichalcum and Related Ancient Alloys; American Numismatic Society: New York, NY, USA, 1964.
58. Tolkien, T.; Wilkinson, H. A Collector’s Guide to Costume Jewelry Key Styles and How to Recognize Them; Firefly Books: Willowdale,
ON, Canada, 1997.
59. Moffat, T.P.; Stafford, G.R.; Hall, D.E. Pitting Corrosion of Electrodeposited Aluminum-Manganese Alloys. J. Electrochem. Soc.
1993, 140, 2779–2786. [CrossRef]
60. Sisko, M.; Pfaffli, I. Fiber Atlas-Identification of Papermaking Fibers; Springer: Espoo, Finland, 1995.
61. Carrillo, F.; Colom, X.; Suñol, J.J.; Saurina, J. Structural FTIR analysis and thermal characterisation of lyocell and viscose-type
fibres. Eur. Polym. J. 2004, 40, 2229–2234. [CrossRef]
62. Gorassini, A.; Adami, G.; Calvini, P.; Giacomello, A. ATR-FTIR characterization of old pressure sensitive adhesive tapes in historic
papers. J. Cult. Herit. 2016, 21, 775–785. [CrossRef]
63. Hiroyuki, I. An Outline of Japanese Gold and Silver Production. Wat on Earth. University od Waterloo. 22 August 2002. Available online: https://uwaterloo.ca/wat-on-earth/news/outline-japanese-gold-and-silver-production (accessed on 15 July 2021).
64. Kobata, A. The Production and Uses of Gold and Silver in Sixteenth-and Seventeenth-Century Japan. Econ. Hist. Rev. 1965, 18, 245–266. [CrossRef]
65. Giumlia-Mair, A. Tin rich layers on ancient copper based objects. Surf. Eng. 2005, 21, 359–367. [CrossRef] |