Fabrication of nanoporous aluminum-oxide composite membranes

To overcome the poor mechanical property of anodic aluminum-oxide (AAO) membranes, we tried to develop AAO/Al composite membranes consisting of membrane cells with straight-pore channels of 40 to 100 nm in diameter and a mesh-like pattern acting as a supporting layer by using UV-light lithography fo...

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Published in	Journal of the Korean Physical Society Vol. 67; no. 11; pp. 1970 - 1976
Main Authors	Athinarayanan, Balasankar, Jeong, Dae-Yeong, Kang, Jong-Hyeon, Koo, Bong-Ho
Format	Journal Article
Language	English
Published	Seoul The Korean Physical Society 01.12.2015 한국물리학회
Subjects	Mathematical and Computational Physics Particle and Nuclear Physics Physics Physics and Astronomy Theoretical 물리학 Composite membranes Anodic aluminum oxide Anodic oxidation Ultrafiltration Straight-pore channels
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ISSN	0374-4884 1976-8524
DOI	10.3938/jkps.67.1970

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Abstract	To overcome the poor mechanical property of anodic aluminum-oxide (AAO) membranes, we tried to develop AAO/Al composite membranes consisting of membrane cells with straight-pore channels of 40 to 100 nm in diameter and a mesh-like pattern acting as a supporting layer by using UV-light lithography followed by wet-etching for the formation of a mesh-like pattern and anodic oxidation followed by wet-etching for the formation of nano-pores with desired specifications. As a result, AAO/Al composite membranes with breaking pressures of over 5 bar, which is an upper bound for ultra- and micro-filtration, could be fabricated. An AAO/Al composite membrane with a water permeability as high as 130 L/m 2 ·h·bar could be fabricated. The composite membranes developed in the present study can be used in micro- and ultra-filtration of severe environments with relatively high economic efficiency and large margins in the flow rate and the breaking pressure.
AbstractList	To overcome the poor mechanical property of anodic aluminum-oxide (AAO) membranes, we tried to develop AAO/Al composite membranes consisting of membrane cells with straight-pore channels of 40 to 100 nm in diameter and a mesh-like pattern acting as a supporting layer by using UV-light lithography followed by wet-etching for the formation of a mesh-like pattern and anodic oxidation followed by wet-etching for the formation of nano-pores with desired specifications. As a result, AAO/Al composite membranes with breaking pressures of over 5 bar, which is an upper bound for ultra- and micro-filtration, could be fabricated. An AAO/Al composite membrane with a water permeability as high as 130 L/m 2 ·h·bar could be fabricated. The composite membranes developed in the present study can be used in micro- and ultra-filtration of severe environments with relatively high economic efficiency and large margins in the flow rate and the breaking pressure. To overcome the poor mechanical property of anodic aluminum-oxide (AAO) membranes, we tried to develop AAO/Al composite membranes consisting of membrane cells with straight-pore channels of 40 to 100 nm in diameter and a mesh-like pattern acting as a supporting layer by using UV-light lithography followed by wet-etching for the formation of a mesh-like pattern and anodic oxidation followed by wet-etching for the formation of nano-pores with desired specifications. As a result, AAO/Al composite membranes with breaking pressures of over 5 bar, which is an upper bound for ultra- and micro-filtration, could be fabricated. An AAO/Al composite membrane with a water permeability as high as 130 L/m2·h·bar could be fabricated. The composite membranes developed in the present study can be used in micro- and ultra-filtration of severe environments with relatively high economic efficiency and large margins in the flow rate and the breaking pressure. KCI Citation Count: 1
Author	Kang, Jong-Hyeon Jeong, Dae-Yeong Athinarayanan, Balasankar Koo, Bong-Ho
Author_xml	– sequence: 1 givenname: Balasankar surname: Athinarayanan fullname: Athinarayanan, Balasankar organization: Electro-functionality Materials Engineering, KERI Campus, Korea University of Science and Technology – sequence: 2 givenname: Dae-Yeong surname: Jeong fullname: Jeong, Dae-Yeong email: dyjeong@keri.re.kr organization: Electro-functionality Materials Engineering, KERI Campus, Korea University of Science and Technology, Nano-hybrid Technology Research Center, Korea Electrotechnology Research Institute – sequence: 3 givenname: Jong-Hyeon surname: Kang fullname: Kang, Jong-Hyeon organization: Nano-hybrid Technology Research Center, Korea Electrotechnology Research Institute – sequence: 4 givenname: Bong-Ho surname: Koo fullname: Koo, Bong-Ho organization: Nano-hybrid Technology Research Center, Korea Electrotechnology Research Institute
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Title	Fabrication of nanoporous aluminum-oxide composite membranes
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