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Monitoring stabilizing procedures of archaeological iron using electrochemical impedance spectroscopy

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Monitoring stabilizing procedures of archaeological iron using electrochemical impedance spectroscopy

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Domenech Carbo, A.; Lastras Pérez, M.; Rodríguez Calás, F.; Cano, E.; Piquero Cilla, J.; Osete Cortina, L. (2013). Monitoring stabilizing procedures of archaeological iron using electrochemical impedance spectroscopy. Journal of Solid State Electrochemistry. 18(2):399-409. https://doi.org/10.1007/s10008-013-2232-y

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Título: Monitoring stabilizing procedures of archaeological iron using electrochemical impedance spectroscopy
Autor: Domenech Carbo, Antonio Lastras Pérez, Montserrat Rodríguez Calás, Francisco Cano, Emilio Piquero Cilla, Juan Osete Cortina, Laura
Entidad UPV: Universitat Politècnica de València. Departamento de Conservación y Restauración de Bienes Culturales - Departament de Conservació i Restauració de Béns Culturals
Universitat Politècnica de València. Instituto Universitario de Restauración del Patrimonio - Institut Universitari de Restauració del Patrimoni
Fecha difusión:
Resumen:
A methodology for monitoring washing procedures applied to stabilize archaeological iron is described. It is based on the combination of voltammetry of microparticles (VMP) with electrochemical impedance spectroscopy ...[+]
Palabras clave: Archaelogical iron , Desalinationmethods , Electrochemical impedance spectroscopy , Voltammetry of microparticles , Conservation restoration
Derechos de uso: Cerrado
Fuente:
Journal of Solid State Electrochemistry. (issn: 1432-8488 ) (eissn: 1433-0768 )
DOI: 10.1007/s10008-013-2232-y
Editorial:
Springer Verlag (Germany)
Versión del editor: http://dx.doi.org/10.1007/s10008-013-2232-y
Código del Proyecto:
info:eu-repo/grantAgreement/MICINN//CTQ2011-28079-C03-02/ES/DESARROLLO DE METODOS NANOELECTROQUIMICOS DE ANALSISIS DE OBRAS PICTORICAS BASADOS EN "ONE-TOUCH", "LAYER-BY-LAYER" VOLTAMPEROMETRIA DE MICRO%2FNANOPARTICULAS Y MICROSCOPIA ELEC/
Agradecimientos:
Financial support from the MEC Project CTQ2011-28079-CO3-02 which is supported with ERDF funds is gratefully acknowledged.
Tipo: Artículo

References

Cronyn JM (1990) The elements of archaeological conservation. Routledge, London

Torgoose S (1982) Stud Conservat 27:97–101

Keene S, Orton C (1985) Stud Conservat 30:136–142 [+]
Cronyn JM (1990) The elements of archaeological conservation. Routledge, London

Torgoose S (1982) Stud Conservat 27:97–101

Keene S, Orton C (1985) Stud Conservat 30:136–142

Selwyn L (2004) Overview of archaeological iron: the corrosion problem, key factors affecting treatment, and gaps in current knowledge. Proc. Metal 2004, National Museum of Australia, Canberra, pp 294–306

Scott DA, Eggert G (2009) Iron and steel in art: corrosion, colorants, conservation. Archetype, London

North NA, Pearson C (1978) Stud Conservat 23:174–186

Gilberg MR, Seeley NJ (1982) Stud Conservat 27:180–184

Cornell RM, Giovanoli U (1990) Clays Clay Miner 38:469–476

Scott DA, Seeley NJ (1987) Stud Conservat 32:73–76

Watkinson D (1996) Chloride extraction from archaeological iron: comparative treatment efficiencies. In: Roy A, Smith P (eds) Archaeological conservation and its consequences. International Institute for Conservation, London, pp 208–212

Watkinson D, Al Zahrani A (2008) The Conservator 31:75–86

Schmutzler B, Eggert G (2010) Simplifying sodium sulphite solutions—the DBU Project Rettung vom dem Rost. In: Eggert G, Schmutzler B (eds) Archaeological Iron Conservation Colloquium 2010. State Academy of Art and Design, Stuttgart

Watkinson D (1982) An assessment of the lithium hydroxide treatments for archaeological ironwork. In: Clarke RW, Blackshaw SM (eds) Conservation of iron, maritime monographs and reports of the National Maritime Museum 53, pp 208–213

Wunderlich C-H, Kuhn C, Dröber V, Eggert G, Schleid T (2010) Efficiency of chloride extraction with organic ammonium bases: the Kur-Project “Conservation and Professional Sotrage of Iron Artefacts”. In: Eggert G, Schmutzler B (eds) Archaeological Iron Conservation Colloquium 2010. State Academy of Art and Design, Stuttgart

Burshneva S, Smirnova N (2010) Some new advances in alkaline sulphite treatment of archaeological iron. In: Eggert G, Schmutzler B (eds) Archaeological Iron Conservation Colloquium 2010. State Academy of Art and Design, Stuttgart

de Vivies P, Cook D, Drews MJ, Gonzalez NG, Mardikian P, Memet JB (2007) Transformation of akaganéite in archaeological iron artefacts using subcritical treatment. In: Degrigny C, Van Langh R, Joosten I, Ankersmit B (eds) Proceedings of the International Conference on Metals Conservation, Amsterdam, Netherlands, pp 17–21

Mardikian P, Gonzalez N, Drews MJ, Nasanen L (2010) The use of subcritical solutions for the stabilization of archaeological iron artifacts. In: Eggert G, Schmutzler B (eds) Archaeological Iron Conservation Colloquium 2010. State Academy of Art and Design, Stuttgart

Dalard F, Gourbeyre Y, Degrigny C (2002) Stud Conserv 47:117–121

Adriaens A, Dowsett M, Leyssens K, Van Gasse B (2007) Anal Bioanal Chem 387:861–868

Guilminot E, Baron G, Memet JB, Huet N, Le Noc E (2007) Electrolytic treatment of archaeological marine chloride impregnated iron objects by remote control. In: Degrigny C, Van Lang R, Joosten I, Ankersmith B (eds) Metal 07. Proceedings of the Interim meeting of the ICOM-CC Metal WG, vol 3, Amsterdam (the Netherlands). Rijksmuseum Amsterdam, Amsterdam, pp 38–43

Liu J, Li Y, Wu M (2008) Stud Conserv 53:41–48

Selwyn LS, McKinnon WR, Argyropoulos V (2001) Stud Conservat 46:109–120

Schmutzler B, Eggert G (2010) The chloride left behind (dis)solving an analytical problem. In: Eggert G, Schmutzler B (eds) Achaeological Iron Conservation Colloquium 2010. State Academy of Art and Design, Stuttgart

Doménech-Carbó A, Lastras M, Rodríguez F, Osete-Cortina L (2013) Microchem J 106:41–50

Scholz F, Meyer B (1992) Chem Soc Rev 23:341–347

Scholz F, Meyer B (1998) Voltammetry of solid microparticles immobilized on electrode surfaces. In: Bard AJ, Rubinstein I (eds) Electroanalytical Chemistry, A Series of Advances, vol 20. Marcel Dekker, New York, pp 1–86

Scholz F, Schröder U, Gulaboski R (2005) Electrochemistry of immobilized particles and droplets. Springer, Berlin

Doménech-Carbó A, Doménech-Carbó MT, Costa V (2009) Electrochemical Methods in Archaeometry, Conservation and Restoration. In: Scholz F (ed) Monographs in electrochemistry series. Springer, Berlin

Doménech-Carbó A (2010) J Solid State Electrochem 14:363–379

Doménech-Carbó A (2012) Electrochemical techniques. In: Edwards HGM, Vandenabeele P (eds) Analytical Archaeometry, selected topics, chapter 7. The Royal Society of Chemistry, London

Doménech-Carbó A, Labuda J, Scholz F (2013) Pure Appl Chem 85:609–631

Doménech-Carbó A (2011) Anal Methods 3:2181–2188

Doménech-Carbó A (2012) Electrochemical analysis: voltammetry of microparticles. In: Dillmann P, Adriaens A, Angelini E, Watkinson D (eds) Corrosion and conservation of cultural heritage metallic artefacts (Chapter II.7). European Federation of Corrosion, Maney, Leeds

Walter GW (1981) J Electroanal Chem 118:259–273

Murray JN (1997) Progr Org Coat 31:375–391

Bastidas JM, Polo JL, Cano E, Torres CL, Mora N (2000) Mater Corros 51:712–718

Bastidas JM, Polo JL, Torres CL, Cano E (2001) Corros Sci 43:269–281

Alves VA, Brett CMA (2002) Electrochim Acta 47:2081–2091

Polo JL, Cano E, Bastidas JM (2002) J Electroanal Chem 537:183–187

Park JJ, Pyun SI (2003) J Solid State Electrochem 7:380–388

Evesque M, Keddam M, Takenouti H (2004) Electrochim Acta 49:2937–2943

Li WS, Cai SQ, Luo JL (2004) J Electrochem Soc 151:B220–B226

Mora N, Cano E, Polo JL, Puente JM, Bastidas JM (2004) Corros Sci 46:563–568

Chiavari C, Colledan A, Frignani A, Brunoro G (2006) Mater Chem Phys 95:252–259

Chiavari C, Rahmouni K, Takenouti H, Joiret S, Vermaut P (2007) Electrochim Acta 52:7760–7769

Liu W, Zhang H, Qu Z, Zhang Y, Li J (2010) J Solid State Electrochem 14:965–973

Toledo-Martos LA, Pech-Canul MA (2011) J Solid State Electrochem 15:1927–1934

Cano E, Lafuente D, Bastidas DM (2010) J Solid State Electrochem 14:381–391

Grassini S, Angelini E, Parvis M, Bouchar M, Dillmann P, Neff D (2013) Appl Phys A. doi: 10.1007/s00339-013-7724-1

Hernandez-Escampa M, Gonzalez J, Uruchurtu-Chavarin J (2010) J Appl Electrochem 40:345–356

Young L (1961) Anodic oxide films. Academic, New York

Rosas-Camacho O, Urquidi-Macdonald M, Macdonald DD (2009) ECS Trans 19:143–165

Macdonald DD, Engelhardt GL (2010) ECS Trans 28:123–144

Sharifi-Asl F, Taylor ML, Lu Z, Engelhardt GL, Kursten B, Macdonald DD (2013) Electrochim Acta 102:161–173

Macdonald DD (2011) Electrochim Acta 56:1761–1772

Macdonald DD, Sikora A, Engelhardt G (1998) Electrochim Acta 43:87–107

Grygar T (1996) J Electroanal Chem 405:117–125

Grygar T (1997) J Solid State Electrochem 1:77–82

Xu J, Huang W, McCreery RL (1996) J Electroanal Chem 410:235–242

Kuang F, Zhang D, Li Y, Wan Y, Hou B (2009) J Solid State Electrochem 13:385–390

Chen G, Waraksa CC, Cho H, Macdonald DD, Mallouk TE (2003) J Electrochm Soc 150:E423–E428

Rimmer M, Watkinson D, Wang Q (2012) Stud Conservat 57:29–41

Poljacek SM, Risovic D, Cigula T, Gojo M (2012) J Solid State Electrochem 16:1077–1089

Sluythers-Rehnach M (1994) Pure Appl Chem 66:1831–1891

Boukamp BA, Bouwmeester HJM (2003) Solid State Ionics 157:29–33

Ibrahim MAM, Pongkao D, Yoshimura M (2002) J Solid State Electrochem 2002(6):341–350

Xia Z, Nanjo H, Aizawa T, Kanakubo M, Fujimura M, Onagawa J (2007) Surf Sci 601:5133–5141

Lee S-J, Pyun S-I (2007) J Solid State Electrochem 11:829–839

Raistrick ID (1990) Electrochim Acta 35:1579–1586

Doménech-Carbó A, Doménech-Carbó MT, Peiró MA (2011) Electroanalysis 23:1391–1400

Doménech-Carbó A, Doménech-Carbó MT, Pasíes T, Bouzas MC (2012) Electroanalysis 24:1945–1955

Mutombo P, Hackerman N (1997) J Solid State Electrochem 1:194–198

Fetisov VB, Ermakov AN, Belysheva GM, Fetisov AV, Kamyshov VM, Brainina KZ (2004) J Solid State Electrochem 8:565–571

Venkatram MS, Cole IS, Emmanuel B (2011) Electrochim Acta 56:8192–8203

Turgoose S (1993) Structure, composition and deterioration of unearthed iron objects. In: Current problems in the conservation of metal antiquities. Tokyo National Research Institute of Cultural Properties, Tokyo, pp 35–52

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