Biomedical Engineering Reference
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References
Acharya, G. and Kunitake, T. 2003. A general method for fabrication of biocompatible surfaces by
modification with titania layer.
Langmuir
19:2260-2266.
Advincula, M.C., Rahemtulla, F.G., Advincula, R.C., Ada, E.T., Lemons, J.E., and Bellis, S.L. 2006.
Osteoblast adhesion and matrix mineralization on sol-gel-derived titanium oxide.
Biomaterials
27:2201-2212.
Allam, N.K. and Grimes, C.A. 2007. Formation of vertically oriented TiO
2
nanotube arrays using a
fluoride free HCl aqueous electrolyte.
J. Phys. Chem. C
111:13028-13032.
Allam, N.K. and Grimes, C.A. 2008a. Effect of cathode material on the morphology and photoelec-
trochemical properties of vertically oriented TiO
2
nanotube arrays.
Sol. Energy Mater. Sol Cells
92:1468-1475.
Allam, N.K., Shankar, K., and Grimes, C.A. 2008b. Photoelectrochemical and water photoelectrolysis
properties of ordered TiO
2
nanotubes fabricated by Ti anodization in fluoride-free HCl electro-
lytes.
J. Mater. Chem.
18:2341-2348.
Backman, U., Auvinen, A., and Jokiniemi, J.K. 2005. Deposition of nanostructured titania films by
particle-assisted MOCVD.
Surf. Coat. Technol.
192:81-87.
Beltran, A.L., Gracia, J., and Andres, J. 2006. Density functional theory study of the brookite surfaces
and phase transitions between natural titania polymorphs.
J. Phys. Chem. B
110:23417-23423.
Biju, K.P. and Jain, M.K. 2008. Effect of crystallization on humidity sensing properties of sol-gel
derived nanocrystalline TiO
2
thin films.
Thin Solid Films
516:2175-2180.
Brammer, K.S., Oh, S.H., Gallagher, J.O., and Jin, S.H. 2008. Enhanced cellular mobility guided by
TiO
2
nanotube surfaces.
Nano Lett.
8:786-793.
Burnside, S.D., Shklover, V., and Barbe C., et al. 1998. Self-organization of TiO
2
nanoparticles in thin
films.
Chem. Mater.
10:2419-2425.
Cai, Q., Paulose, M., Varghese, O.K., and Grimes, C.A. 2005. The effect of electrolyte composition on
the fabrication of self-organized titanium oxide nanotube arrays by anodic oxidation.
J. Mater.
Res.
20:230-236.
Chen, X., Schriver M., Suen. T, and Mao, S.S. 2007. Fabrication of 10 nm diameter TiO
2
nanotube
arrays by titanium anodization.
Thin Solid Films
515:8511-8514.
Chiang, C.Y., Chiou, S.H., and Yang, W.E., et al. 2009. Formation of TiO
2
nano-network on titanium
surface increases the human cell growth.
Dent. Mater.
25:1022-1029.
Christophersen, M., Carstensen, J., Voigt, K., and Foll, H. 2003. Organic and aqueous electrolytes
used for etching macro- and mesoporous silicon.
Phys. Status Solid A
197:34-38.
Das, K., Bose, S., Bandyopadhyay, A., Karandikar, B., and Gibbins, B.L. 2008. Surface coatings for
improvement of bone cell materials and antimicrobial activities of Ti implants.
J. Biomed. Mater.
Res.
87:455-460.
de Oliveira, P.T. and Nanci, A. 2004. Nanotexturing of titanium-based surfaces upregulates expres-
sion of bone sialoprotein and osteopontin by cultured osteogenic cells.
Biomaterials
25:403-413.
Doohun, K., Fujimoto, S., Schmuki, P., and Tsuchiya, H. 2008. Nitrogen doped anodic TiO
2
nanotubes
grown from nitrogen-containing Ti alloys.
Electrochem. Commun.
10:910-913.
Erli, H.J., Ruger, M., and Ragoss, C., et al. 2006. The effect of surface modification of a porous TiO
2
/
perlite composite on the ingrowth of bone tissue in vivo.
Biomaterials
27:1270-1276.
Evans, P. and Sheel, D.W. 2007. Photoactive and antibacterial TiO
2
thin films on stainless steel.
Surf.
Coat. Technol.
201:9319-9324.
Fan, S.Q., Yang, G.J., Li, C.J., Liu, G.J., Li, C.X., and Zhang, L.Z. 2006. Characterization of micro-
structure of nano-TiO
2
coating deposited by vacuum cold spraying.
J. Therm. Spray Technol.
15:513-517.
Fictorie, C.P., Evans, J.F., and Glandfelter, W.L. 1994. Kinetic and mechanistic study of the chemical-vapor-
deposition of titanium-oxide thin-films using tetrakis-(isopropoxo)-titanium.
J. Vac. Sci. Technol.
A 12:1108-1113.
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