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In situ Optical Emission Spectrometry during Porous Anodic Alumina Initiation and Growth in Phosphoric Acid

Bibliographic reference Van Overmeere, Quentin ; Mercier, Dimitri ; Santoro, Ronny ; Proost, Joris. In situ Optical Emission Spectrometry during Porous Anodic Alumina Initiation and Growth in Phosphoric Acid. In: Electrochemical and Solid-State Letters, Vol. 15, no. 1, p. C1-C4 (2012)
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  1. Houser Jerrod E., Hebert Kurt R., The role of viscous flow of oxide in the growth of self-ordered porous anodic alumina films, 10.1038/nmat2423
  2. Barkey Dale, McHugh John, Pattern Formation in Anodic Aluminum Oxide Growth by Flow Instability and Dynamic Restabilization, 10.1149/1.3484095
  3. Oh Jihun, Thompson Carl V., The role of electric field in pore formation during aluminum anodization, 10.1016/j.electacta.2011.02.002
  4. Zhou F., Mohamed Al-Zenati A. K., Baron-Wiecheć A., Curioni M., Garcia-Vergara S. J., Habazaki H., Skeldon P., Thompson G. E., Volume Expansion Factor and Growth Efficiency of Anodic Alumina Formed in Sulphuric Acid, 10.1149/1.3578028
  5. Q. Van Overmeere and J. Proost , Electrochim. Acta, in press (2011).10.1016/j.electacta.2011.03.123
  6. Parkhutik V P, Shershulsky V I, Theoretical modelling of porous oxide growth on aluminium, 10.1088/0022-3727/25/8/017
  7. Shimizu K., Kobayashi K., Thompson G. E., Wood G. C., Development of porous anodic films on aluminium, 10.1080/01418619208201581
  8. Beranek R., Hildebrand H., Schmuki P., Self-Organized Porous Titanium Oxide Prepared in H[sub 2]SO[sub 4]/HF Electrolytes, 10.1149/1.1545192
  9. Sieber I., Kannan B., Schmuki P., Self-Assembled Porous Tantalum Oxide Prepared in H[sub 2]SO[sub 4]/HF Electrolytes, 10.1149/1.1859676
  10. Ghicov Andrei, Schmuki Patrik, Self-ordering electrochemistry: a review on growth and functionality of TiO2 nanotubes and other self-aligned MOx structures, 10.1039/b822726h
  11. Hoar T.P., Mott N.F., A mechanism for the formation of porous anodic oxide films on aluminium, 10.1016/0022-3697(59)90199-4
  12. Diggle J. W., Downie T. C., Goulding C. W., Processes Involved in Reattainment of Steady-State Conditions for the Anodizing of Aluminum Following Formation Voltage Changes, 10.1149/1.2412043
  13. O'Sullivan J. P., Wood G. C., The Morphology and Mechanism of Formation of Porous Anodic Films on Aluminium, 10.1098/rspa.1970.0129
  14. Cherki C., Siejka J., Study by Nuclear Microanalysis and O18 Tracer Techniques of the Oxygen Transport Processes and the Growth Laws for Porous Anodic Oxide Layers on Aluminum, 10.1149/1.2403563
  15. Siejka J., An O18 Study of Field-Assisted Pore Formation in Compact Anodic Oxide Films on Aluminum, 10.1149/1.2133446
  16. Baron-Wiecheć A., Ganem J. J., Garcia-Vergara S. J., Skeldon P., Thompson G. E., Vickridge I. C., [sup 18]O Tracer Study of Porous Film Growth on Aluminum in Phosphoric Acid, 10.1149/1.3490640
  17. Van Overmeere Quentin, Blaffart Frédéric, Proost Joris, What controls the pore spacing in porous anodic oxides?, 10.1016/j.elecom.2010.06.010
  18. Mercier D., Van Overmeere Q., Santoro R., Proost J., In-situ optical emission spectrometry during galvanostatic aluminum anodising, 10.1016/j.electacta.2010.10.092
  19. Ogle K., Weber S., Anodic Dissolution of 304 Stainless Steel Using Atomic Emission Spectroelectrochemistry, 10.1149/1.1393433
  20. Van Overmeere Quentin, Nysten Bernard, Proost Joris, In situ detection of porosity initiation during aluminum thin film anodizing, 10.1063/1.3081014
  21. Brown F., Mackintosh W. D., The Use of Rutherford Backscattering to Study the Behavior of Ion-Implanted Atoms During Anodic Oxidation of Aluminum: Ar, Kr, Xe, K, Rb, Cs, Cl, Br, and l, 10.1149/1.2403637
  22. Khalil N., Leach J.S.L., The anodic oxidation of valve metals—I. Determination of ionic transport numbers by α-spectrometry, 10.1016/0013-4686(86)80148-7
  23. Lohrengel M.M., Thin anodic oxide layers on aluminium and other valve metals: high field regime, 10.1016/0927-796x(93)90005-n
  24. Hebert Kurt R., Houser Jerrod E., A Model for Coupled Electrical Migration and Stress-Driven Transport in Anodic Oxide Films, 10.1149/1.3151835
  25. Garcia-Vergara S J, Habazaki H, Skeldon P, Thompson G E, Formation of porous anodic alumina at high current efficiency, 10.1088/0957-4484/18/41/415605
  26. Zhou F., LeClere D. J., Garcia-Vergara S. J., Skeldon P., Thompson G. E., Habazaki H., Influence of current density on the distribution of tungsten tracer in porous anodic alumina films, 10.1002/sia.3179