Selection of our books indexed in the Book Citation Index in Web of Science™ Core Collection (bkci)

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Aluminum Anodic Oxide AAO as a Template

Microporous Mesoporous Mater
2012;153 131-136.
[95] Pellin MJ, Stair PC, Xiong G, Elam JW, Birrell J, Curtiss L, George SM, Han CY, Iton
L, Kung H, Kung M, Wang HH. Nesoporous catalytic membranes. Synthetic control
of pore size and wall composition.
Cataly Lett
2005;102 127-130.
[96] Lei Y, Chim WK. Highly ordered arrays of metal/semiconductor core-shell nanopar‐
ticles with tunable nanostructures and photoluminescence.
J Am Chem Soc
2005;127
1487-1492.
[97] Mardare AI, Kaltenbrunner M, Sariciftci NS, Bauer S, Hassel AW. Ultra-thin anodic
alumina capacitor films for plastic electronics.
Physica Status Solidi
A 2012;209
813-818.
[98] Wen S, Mho S, Yeo IH. Improved electrochemical capacitive characteristics of the car‐
bon nanotubes grown on the alumina templates with high pore density.
J Power Sour‐
ces
2006;163 304-308.
[99] Li GH, Zhang Y, Wu YC, Zhang LD. Photoluminescence of anodic alumina mem‐
branes: pore size dependence.
Appl Physics A
2005;81 627-629.
[100] Chen JH, Huang CP, Chao CG, Chen TM. The investigation of photoluminescence
centres in porous alumina membranes.
App Physics A
2006;84 297-300.
[101] Ko E, Choi J, Okamoto K, Tak Y, Lee J. Cu
2
O nanowires in an alumina template: Elec‐
trochemical conditions for the synthesis and photoluminescence characteristics.
Chem
Phys Chem
2006;7 1505-1509.
[102] Li GH, Zhang Y, Wu YC, Zhang LD. Photoluminescence of anodic alumina mem‐
branes: pore size dependence.
Appl Physics A
2005;81 627-629.
[103] Chu Sz, Inoue S, Wada K, Kurashima K. Fabrication of integrated arrays of ultrahigh
density magnetic nanowires on glass by anodization and electrodeposition.
Electro‐
chim Acta
2005;51 820-826.
[104] Yasui K, Morikawa T, Nishio K, Masuda H. Patterned magnetic recording media us‐
ing anodic porous alumina with single domain hole confoguration of 63 nm hole in‐
terval.
Jap J Appl Physics
2005;44 L469-L471.
[105] Seo BI, Shaislamov UA, Lee SJ, Kim SW, Kim IS, Hong SH, Yang B. Growth of ferro‐
electric BLT and Pt nanotubes for semiconductor memories.
J Crystal Growth
2006;292
315-319.
[106] Yu D, Feng Y, Zhu Y, Zhang X, Li B, Liu H.Template synthesis and characterization
of molybdenum disulfide nanotubes.
Mater Res Bull
2011;46 1504-1509.
[107] Aguilera A, Jayaraman V, Sanagapalli S, Suresh Singh R, Jayaraman V, Sampson K.,
Singh V.P. Porous alumina templates and nanostructured CdS for thin film solar cell
applications.
Solar Energy Mater Solar Cells
2006;90 713–726.
Aluminum Anodic Oxide AAO as a Template for Formation of Metal Nanostructures
http://dx.doi.org/10.5772/61263
101

[108] Kang Y, Kim D. Well-aligned CdS nanorod/conjugated polimer solar cells.
Solar Ener‐
gy Mater Solar Cells
2006;90 166–174.
[109] Nishizawa M, Mukai K, Kuwabata S, Martin CR, Yoneyama H, Nishizawa M, Mukai
K, Kuwabata S, Martin CR, Yoneyama H. Template synthesis of polypyrrole-coated
spinel LiMn
2
O
4
nanotubules and their properties as cathode active materials for lith‐
um batteries.
J Electrochem Soc
1997;144 1923-1927.
[110] Chi GJ, Yao SW, Fan J, Zhang WG, Wang HZ. Antibacterial activity of anodized alu‐
minium with deposited silver.
Surf Coat Technol
2002;157 162–165.
[111] Choi J, Luo Y, Wehrspohn RB, Hillebrand R, Schilling J, Gosele U. Perfect two-di‐
mensional porous alumina photonic crystals with duplex oxide layers.

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