Abstract
Electrochemical oxidation of aluminum has attracted considerable attention because of the widespread use of aluminum oxide layers in different areas of technology and industry. Traditionally, the anodization of aluminum is used to protect metals from corrosion and to increase the abrasive and adsorption properties, hardness, etc. The oxide layers on aluminum are widely used in electronics due to its excellent dielectric properties, perfect planarity, and good reproducibility during production. In recent years, scientists have focused on the formation of self-ordered oxide structures on aluminum in various electrolytes. This is a result of the application of porous oxide layers arranged pores with dimensions ranging from micrometers to nanometers, as the mold in nanotechnologies for the synthesis of nanotubes, nanowires, solar cells, micro-optical elements, photonic crystals, etc.
Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Diggle JW, Downie TC, Goulding CW (1969) Chem Rev 69: 365
Norman JE (1977) Corr Sci 17: 39
Tajima S (1977) Electrochim Acta 22: 995
Li Y, Shimada H, Sakairi M, Shigyo K, Takahashi H, Seo M (1997) J Electrochem Soc 144: 866
Yerokhin AL, Nie X, Leyland A, Matthews A, Dowey SJ (1999) Surf Coat Tech 122: 73.
Despic A, Parkhutik V (1989) Electrochemistry of Aluminium in Aqueous Solutions and Physics of Its Anodic Oxides, Chapter 6: In Bockris JOM, White RE and Conway BE (eds), Modern Aspects of Electrochemistry, No.22, Plenum Press, New York, p.401
Thompson GE, Wood GC (1983) Anodic Films on Aluminium, Chapter 5: In Scully, J C (ed) Treatise on Materials Science and Technology, No. 23, Academic Press Inc.: New York, p. 205
Takahashi H, Fujimoto K, Nagayama M (1988) J Electrochem Soc 135: 1349
Jackson NF, Campbell DS (1976) Thin Solid Films 36: 331
Liang CW, Luo TC, Feng M.S, Cheng HC, Sue D (1996) Mater Chem Phys 43: 166
Nielsch K, Choi J, Schwirn K, Wehrspohn RB, Gosele U (2002) Nano Lett 2: 677
O'Sullivan JP, Wood GC (1970) P Roy Soc A-Math Phy 317: 511
Setoh S, Miyata A (1932) Sci Paper Inst Phys Chem Res 19: 273
Wernick S, Pinner R, Sheasby PG (1987) The Surface Treatment and Finishing of Aluminium and its Alloys, Fifth edition, Vol. 1, ASM International Finishing Publications, Metals Park, OH
Machkova M, Girginov A, Klein E, Ikonopisov S (1981) Surf Tech 14: 241
Machkova M, Klein E, Girginov A, Ikonopisov S (1984) Surf Tech 22: 21
Girginov A, Zahariev A, Machkova M (2002) Mater Chem Phys 76: 274
Neufeld P, Southall DM (1975) Electrodepos Surf Treat 3: 159
Klein IE, Yaniv AE (1971) Metallography 4: 403
Altenpohl D (1954) Convention Record, I.R.E. Nat. Conv. 3: 35
Franklin RW (1961) Proceedings of the Conference on Anodising Aluminium (Nottingham), (Aluminium Development Assoc., London, 1962) 96
Shimizu K, Tajima S, Thompson GE, Wood GC (1981) Electrochim Acta 25: 1481
Dorsey Jr GA (1966) J Electrochem Soc 113: 169
Franklin R.W. (1957) Nature 180: 1470
Altenpohl D, Post W (1961) J Electrochem Soc 108: 628
Keller F, Hunter MS, Robinson DL (1953) J Electrochem Soc 100: 411
Guntherschultze A, Betz H (1931) Z Phys 68: 145
Guntherschultze A, Betz H (1931) Z Phys 71: 106
Guntherschultze A, Betz H (1934) Z Phys 91: 70
Guntherschultze A, Betz H (1934) Z Phys 92: 367
Cabrera N, Mott NF (1948-49) Rep Prog Phys 12: 133
Verwey EJ (1935) Physica 2: 1059
Young L (1959) Can J Chem 37: 276
Sulka G (2008) Highly Ordered Anodic Porous Alumina Formation by Self-Organized Anodizing, in Nanostructured Materials in Electrochemistry, Edited by Ali Eftekhari WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Kanakala R, Singaraju PV, Venkat R, Das B (2005) J Electrochem Soc 152: J1
Hoar TP, Yahalom J (1963) J Electrochem Soc 110: 614
Thompson GE (1997) Thin Solid Films 297: 192
Parkhutik VP, Shershulsky VI (1992) J Phys D Appl Phys 25: 1258
Thamida SK, Chang HC (2002) Chaos 12: 240
Masuda H, Fukuda K (1995) Science 268: 1466
Li J, Papadopulos C, Xu JM (1999) Appl Phys Lett75: 367
Suh JS, Lee JS (1999) Appl Phys Lett75: 2047
Pradhan BK, Kyotani T, Tomita A (1999) Chem Commun 14: 1317
Gao T, Meng G, Wang Y, Sun S, Zhang L (2002) J Phys-Condens Mat 14: 355
Choi J, Sauer G, Nielsch K, Wehrsphn RB, Gosele U (2003) Chem Mater 15: 776
Crousea D, Lo YH, Miller AE, Crouse M (2000) Appl Phys Lett 76: 49
Masuda H, Satoh M (1996) Jpn J Appl Phys 35: L126
Miskulas I, Juodkazis S, Jagminas A, Meskinis S, Dumas JG, Vaitkus J, Tomasiunas R (2001) Opt Mater 17: 343
Choi J, Luo Y, Wehrsphn RB, Hillebrand R, Schilling J, Gosele U (2003) J Appl Phys 94: 4757
Choi J, Nielsch K, Reiche M, Wehrsphn RB, Gosele U, (2003) J Vac Sci Technol B 21: 763
Li AP, Muller F, Gosele U (2000) Electrochem Solid St 3: 131
Liu CY, Datta A, Wang YL (2001) Appl Phys Lett 78: 120
Sun Z, Kim HK (2002) Appl Phys Lett 81: 3458
Shingubara S, Murakami Y, Morimoto K, Takahagi T (2003) Surf Sci 532-535: 317
Masuda H, Kanezawa K, Nishio K (2002) Chem Lett 31: 1218
Belča ID, Petković M, Stojadinović S, Kasalica B, Belča JS, Zeković LjD (2011) Appl Phys A-Mater 104: 295
Braun F (1898) Ann Chim Phys 65: 361
Guntherschulze A (1906) Ann Phys 21: 929
Anderson S (1943) J Appl Phys 14: 601
Lewowski T (1961) Acta Phys Pol 20: 161
Lewowski T (1963) Acta Phys Pol 28 215
Van Geel WCh, Bouma BC (1951) Philips Res Rep 6: 401
Van Geel WCh, Pistorius CA, Bouma BC (1956) Philips Res Rep 11: 471
Van Geel WCh, Pistorius CA, Bouma BC (1957) Philips Res Rep 12: 465
Smith AW (1956) Can J Phys 35: 1151
Smith AW (1959) Can J Phys 37: 591
Ganley WP, Mooney PM, Humnik D (1969) Thin Solid Films 3: 377
Ganley WP (1972) Thin Solid Films 11: 91
Ikonopisov S, Nankov N (1967) Phys Status Solidi A 23: K61
Ikonopisov S (1975) Electrochim Acta 20: 783
Ikonopisov S (1975) Electrochim Acta 20: 795
Ikonopisov S, Elenkov N, Klein E, Andreeva L (1978) Electrochim Acta 23: 1209
Ikonopisov S, Girginov A, Machkova M (1989) Electrochim Acta 34: 631
Girginov A, Machkova M, Ikonopisov S (1990) Electrochim Acta 35: 825
Tajima S (1977) Electrochim Acta 22: 995
Tajima S, Shimizu K, Baba N, Matsuzawa S (1977) Electrochim Acta 22: 845
Shimizu K, Tajima S (1977) Electrochim Acta 25: 259
Shimizu K, Tajima S, Baba N, Matsuzawa S (1977) Thin Solid Films 41: L35
Tajima S, Shimizu K, Baba N, Matsuzawa S (1977) Electrochim Acta 22: 851
Shimizu K, (1978) Electrochim Acta 23: 295
Shimizu K, Tajima S (1979) Electrochim Acta 24: 309
Zeković LjD, Urošević VV, Panić BM (1980) Surf Sci 101: 310
Zeković LjD, Urošević VV (1981) Thin Solid Films 78: 279
Zeković LjD, Urošević VV (1981) Thin Solid Films 86: 347
Zeković LjD, Urošević VV, Jovanić BR (1982) Appl Surf Sci 11/12: 90
Zeković LjD, Urošević VV, Jovanić BR, Panić B, Žikić A (1988) Fizika 20: 441
Kasalica B, Belča I, Zeković Lj, Jovanic B (1998) Solid State Phenom 61–62: 325
Belča I, Kasalica B, Zeković Lj, Jovanić B, Vasilić R (1999) Electrochim Acta 45: 993
Belča ID, Zeković LjD, Jovanić B, Ristovski G, Ristovski Lj (2000) Electrochim Acta 45: 4095
Stojadinović S, Zeković Lj, Belča I, Kasalica B (2004) Electrochem Commun 6: 427
Stojadinović S, Zeković Lj, Belča I, Kasalica B, Nikolić D (2004) Electrochem Commun 6: 708
Stojadinović S, Belča I, Zeković Lj, Kasalica B, Nikolić D (2004) Electrochem Commun 6: 1016
Kasalica B, Stojadinović S, Zeković Lj, Belča I, Nikolić D (2005) Electrochem Commun 7: 735
Stojadinović S, Belča I, Kasalica B, Zeković Lj, Tadić M (2006) Electrochem Commun 8: 1621
Stojadinović S, Tadić M, Belča I, Kasalica B, Zeković Lj (2007) Electrochim Acta 52: 7166
Stojadinović S, Belča I, Tadić M, Kasalica B, Nedić Z, Zeković Lj (2008) J Electroanal Chem 619/620: 125
Stojadinović S, Vasilić R, Petković M, Nedić Z, Kasalica B, Belča I, Zeković Lj (2010) Electrochim Acta 55: 3857
Kasalica B, Belca I, Stojadinović S, Sarvan M, Perić M, Zeković Lj (2007) J Phys Chem C 111: 12315
Sarvan M, Stojadinović S, Kasalica B, Belča I, Zeković Lj (2008) Electrochim Acta 53: 2183
Stojadinović S, Vasilic R, Belča I, Tadić M, Kasalica B, Zeković Lj (2008) Appl Surf Sci 255: 2845
Stojadinović S, Vasilic R, Petkovic M, Nedić Z, Kasalica B, Belča I, Zeković Lj (2010) Electrochim Acta 55: 3857
Sarvan M, Perić M, Zeković Lj, Stojadinović S, Belča I, Petković M, Kasalica B (2011) Spectrochim Acta A 81: 672
Stojadinović S, Vasilić R, Petković M, Belča I, Kasalica B, Perić M, Zeković Lj (2012) Electrochim Acta 59: 354
Stojadinović S, Vasilić R, Petković M, Belča I, Kasalica B, Perić M, Zeković Lj (2012) Electrochim Acta 79: 133
Stojadinović S, Zeković Lj, Belča I, Kasalica B, Nikolić D (2004) 11th Congress of Physicists of Serbia and Montenegro, Petrovac na Moru 4/179
Kasalica B, Belča I, Stojadinović S, Zeković Lj, Nikolić D (2006) Appl Spectrosc 60: 1090
Mason RB (1955) J Electrochem Soc 102: 671
Charlesby A (1953) Proceedings of the Physical Society LXVI 7-B: 533
Fan DH, Ding GQ, Shen WZ, Zheng MJ (2007) Micropor Mesopor Mat 100: 154
Yamamoto Y, Baba N (1983) Thin Solid Films 101: 329
Gardin YuE, Odynets LL, Tukmakov BC (1970) Elektrohimija 6: 1562
Bocchetta P, Sunseri C, Chiavarotti G, Di Quarto F (2003) Electrochim Acta 48: 3175
Herzberg G, Molecular Spectra and Molecular Structure III. Electronic Spectra of Polyatomic Molecules, Van Nostrand, New York, 1966
Nabatame T, Yasuda T, Nishizawa M, Ikeda M, Horikawa T, Toriumi A (2003) Jpn J Appl Phys 42: 7205
Petković M, Stojadinović S, Vasilić R, Belča I, Nedić Z, Kasalica B, Mioč UB (2011) Appl Surf Sci 257: 1995
Stojadinović S, Vasilić R, Belča I, Petković M, Kasalica B, Nedić Z, Zeković Lj (2010) Corr Sci 52: 3258
Klapkiv M, Nykyforchyn H, Posuvailo V (1994) Mater Sci 30: 333
Mécuson F, Czerwiec T, Belmonte T, Dujardin L, Viola A, Henrion G (2005) Surf Coat Tech 200: 804
Dunleavy CS, Golosnoy IO, Curran JA, Clyne TW (2009) Surf Coat Tech 203: 3410
Kasalica B, Petković M, Belča I, Stojadinović S, Zeković Lj (2009) Surf Coat Tech 203: 3000
Hussein RO, Nie X, Northwood DO, Yerokhin A, Matthews A (2010) J Phys D Appl Phys 43: 105203
Hussein RO, Nie X, Northwood DO (2010) Surf Coat Tech 205: 1659
Jovović J, Stojadinović S, Šišović NM, Konjević N (2011) Surf Coat Tech 206: 24
Jovović J, Stojadinović S, Šišović NM, Konjević N (2012) J Quant Spectrosc Radiat Transf 113: 1928
Kasalica B, Stojadinović S, Belča I, Sarvan M, Zeković Lj, Radić-Perić J (2013) J Anal Atom Spectrom 28: 92
Albella JM, Montero I, Martinez-Duart JM (1987) Electrochim Acta 32: 255
Ikonopisov S (1977) Electrochim Acta 22: 1077
Sundararajan G, Rama Krishna L (2003) Surf Coat Tech 167: 269
Stojadinović S, Perić M, Petković M, Vasilić R, Kasalica B, Belča I, Radić-Perić J (2011) Electrochim Acta 56: 10122
Gigosos MA, Gonzalez MA, Cardenoso V (2003) Spectrochim Acta B 58: 1489
Konjević N, Roberts JR (1976) J Phys Chem Ref Data 5: 209
Ivković M, Jovićević S, Konjević N (2004) Spectrochim Acta B 59: 591
Stojadinović S, Jovović J, Petković M, Vasilić R, Konjević N (2011) Surf Coat Tech 205: 5406
Stojadinović S, Vasilić R, Petković M, Zeković Lj (2011) Surf Coat Tech 206: 575
Stojadinović S, Vasilić R, Petković M, Kasalica B, Belča I, Žekić A, Zeković Lj (2013) Appl Surf Sci 265: 226
Stojadinović S, Perić M, Radić-Perić J, Vasilić R, Petković M, Zeković Lj (2011) Surf Coat Tech 206: 2905
Ranković R, Stojadinović S, Sarvan M, Kasalica B, Krmar M, Radić-Perić J, Perić M (2012) J Serb Chem Soc 77: 1483
Acknowledgments
The authors would like to express their gratitude to the Ministry of Education, Science, and Technology of the Republic of Serbia for long-term funding of the research presented herein.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2014 Springer Science+Business Media New York
About this chapter
Cite this chapter
Stojadinović, S., Vasilić, R., Kasalica, B., Belča, I., Zeković, L. (2014). Luminescence During the Electrochemical Oxidation of Aluminum. In: Djokić, S. (eds) Electrodeposition and Surface Finishing. Modern Aspects of Electrochemistry, vol 57. Springer, New York, NY. https://doi.org/10.1007/978-1-4939-0289-7_5
Download citation
DOI: https://doi.org/10.1007/978-1-4939-0289-7_5
Published:
Publisher Name: Springer, New York, NY
Print ISBN: 978-1-4939-0288-0
Online ISBN: 978-1-4939-0289-7
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)