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http://dx.doi.org/10.4150/KPMI.2015.22.4.240

Shape Control of Anodic Aluminum Oxide and Effect as Support of Silicon Powder Electrode  

Song, Ju-Seok (Dept. of Materials Engineering and Convergence Technology & RIGET, Gyeongsang National University)
Ha, Jong-Keun (School of Materials Science and Engineering, Gyeongsang National University)
Kim, Yoo-Young (Dept. of Mechanical Engineering, Gyeongnam National University of Science and Technology)
Park, Dong-Kyu (LINC & School of Materials Science and Engineering, Gyeongsang National University)
Ahn, In-Shup (School of Materials Science and Engineering, Gyeongsang National University)
Ahn, Jou-Hyeon (Dept. of Materials Engineering and Convergence Technology & RIGET, Gyeongsang National University)
Cho, Kwon-Koo (Dept. of Materials Engineering and Convergence Technology & RIGET, Gyeongsang National University)
Publication Information
Journal of Powder Materials / v.22, no.4, 2015 , pp. 240-246 More about this Journal
Abstract
Anodic aluminum oxide (AAO) has been widely used for the development and fabrication of nano-powder with various morphologies such as particle, wire, rod, and tube. So far, many researchers have reported about shape control and fabrication of AAO films. However, they have reported on the shape control with different diameter and length of anodic aluminum oxide mainly. We present a combined mild-hard (or hard-mild) anodization to prepare shape-controlled AAO films. Two main parameters which are combination mild-hard (or hard-mild) anodization and run-time of voltage control are applied in this work. The voltages of mild and hard anodization are respectively 40 and 80 V. Anodization was conducted on the aluminum sheet in 0.3 mole oxalic acid at $4^{\circ}C$. AAO films with morphologies of varying interpore distance, branch-shaped pore, diameter-modulated pore and long funnel-shaped pore were fabricated. Those shapes will be able to apply to fabricate novel nano-materials with potential application which is especially a support to prevent volume expansion of inserted active materials, such as metal silicon or tin powder, in lithium ion battery. The silicon powder electrode using an AAO as a support shows outstanding cycle performance as 1003 mAh/g up to 200 cycles.
Keywords
Anodic aluminum oxide; Anodization; Shape control; Silicon powder; Lithium secondary battery;
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