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In-Depth Information
24. O.O. Van der Biest and L.J. Vandeperre, Electrophoretic Deposition of Materials,
Ann. Rev.
Mater. Sci.
,
29
[1] 327-352 (1999).
25. S. Usui, Electric Charge and Charge Neutralization in Aqueous Solutions, pp. 432-39 in
Powder
Technology Handbook
. Marcel Dekker, New York, 1991.
26. J. Cazes, Editor,
Encyclopedia of Chromatography,
3rd Edition. CRC Press, Boca Raton, FL, 2005.
27. L. Bergström, Colloidal Processing of Ceramics, pp. 201-18 in
Handbook of Applied Surface and
Colloid Chemistry
. John Wiley & Sons Ltd., West Sussex, UK, 2001.
28. J. Speight,
Lange's Handbook of Chemistry,
16th Edition. McGraw Hill, New York, 2005.
29. G. Cao,
Nanostructures & Nanomaterials-Synthesis, Properties & Applications
. Imperial College
Press, London, 2004.
30. J.H. Adair, E. Suvaci, and J. Sindel, Surface and Colloid Chemistry, pp. 8996-9006 in
Encyclopedia
of Materials Science and Technology
. Edited by K.H.J. Buschow, R.W. Cahn, M.C. Flemings, B.
Ilschner, E.J. Kramer, and S. Mahajan. Elsevier Science Ltd., Oxford, 2001.
31. D.J. Shaw,
Introduction to Colloid and Surface Chemistry,
2nd Edition. Butterworths, London,
1970.
32. J.J. Gulicovski, L.S. Čerović, and S.K. Milonjić, Point of Zero Charge and Isoelectric Point of
Alumina,
Mater. Manuf. Proc.
,
23
[6] 615-19 (2008).
33. J.A. Menéndez, M.J. Illán-Gómez, C.A. León y León, and L.R. Radovic, On the Difference
between the Isoelectric Point and the Point of Zero Charge of Carbons,
Carbon
,
33
[11] 1655-59
(1995).
34. J.A. Lewis, Colloidal Processing of Ceramics,
J. Am. Ceram. Soc.
,
83
[10] 2341-59 (2000).
35. H. Taib, Synthesis and Electrophoretic Deposition of Tin Oxide (SnO
2
). Ph.D. Thesis, University
of New South Wales, 2009.
36. M. Fellows and W.O.S. Doherty, Insights into Bridging Flocculation,
Macromol. Symp.
,
231
[1]
1-10 (2006).
37. B. Ferrari, J.C. Fariñas, and R. Moreno, Determination and Control of Metallic Impurities in
Alumina Deposits Obtained by Aqueous Electrophoretic Deposition,
J. Am. Ceram. Soc.
,
84
[4]
733-39 (2001).
38. R. Moreno and B. Ferrari, Effect of the Slurry Properties on the Homogeneity of Alumina Deposits
Obtained by Aqueous Electrophoretic Deposition,
Mater. Res. Bull.
,
35
[6] 887-97 (2000).
39. T. Uchikoshi and Y. Sakka, Electrophoretic Deposition Characteristics of Alumina Particles in
Aqueous Media,
J. Ceram. Soc. Japan
,
112
[1] S63-S66 (2004).
40. B. Ferrari and R. Moreno, Electrophoretic Deposition of Aqueous Alumina Slips,
J. Eur. Ceram.
Soc.
,
17
[4] 549-56 (1997).
41. K. Simović, V.B. Miškovic-Stanković, D. Kićević, and P. Jovanić, Electrophoretic Deposition of
Thin Alumina Films from Water Suspension,
Colloids Surf. A Physicochem. Eng. Aspects
,
209A
[1]
47-55 (2002).
42. B. Ferrari and R. Moreno, The Conductivity of Aqueous Al
2
O
3
Slips for Electrophoretic
Deposition,
Mater. Lett.
,
28
[4-6] 353-55 (1996).
43. G. Anné, K. Vanmeensel, J. Vleugels, and O. Van der Biest, A Mathematical Description of the
Kinetics of the Electrophoretic Deposition Process for Al
2
O
3
-Based Suspensions,
J. Am. Ceram.
Soc.
,
88
[8] 2036-39 (2005).
44. M. Menon, S. Decourcelle, N. Attia, S. Ramousse, and P.H. Larsen, Stabilization of Ethanol
Based Ceramic Suspensions for Electrophoretic Deposition,
Ceram. Eng. Sci. Proc.
,
26
[3] 239-46
(2005).
45. M. Shan, X. Mao, J. Zhang, and S. Wang, Electrophoretic Shaping of Sub-Micron Alumina in
Ethanol,
Ceram. Int.
,
35
[5] 1855-61 (2009).
46. A. Braun, G. Falk, and R. Clasen, Transparent Polycrystalline Alumina Ceramic with Sub-
Micrometre Microstructure by Means of Electrophoretic Deposition,
Materialwiss. Werkst.
,
37
[4] 293-97 (2006).
47. T. Uchikoshi, T.S. Suzuki, H. Okuyama, Y. Sakka, and P.S. Nicholson, Electrophoretic Deposition
of Alumina Suspension in a Strong Magnetic Field,
J. Eur. Ceram. Soc
.,
24
[2] 225-29 (2004).
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