Simultaneous multi-surface anodizations and stair-like reverse biases detachment of anodic aluminum oxides in sulfuric and oxalic acid electrolyte

Healin Im, Seok Hwan Jeong, Dong Hyuk Park, Sunkook Kim, Young Ki Hong

Research output: Contribution to journalArticlepeer-review

Abstract

After reporting on the two-step anodization, nanoporous anodic aluminum oxides (AAOs) have been widely utilized in the versatile fields of fundamental sciences and industrial applications owing to their periodic arrangement of nanopores with relatively high aspect ratio. However, the techniques reported so far, which could be only valid for mono-surface anodization, show critical disadvantages, i.e., time-consuming as well as complicated procedures, requiring toxic chemicals, and wasting valuable natural resources. In this paper, we demonstrate a facile, efficient, and environmentally clean method to fabricate nanoporous AAOs in sulfuric and oxalic acid electrolytes, which can overcome the limitations that result from conventional AAO fabricating methods. First, plural AAOs are produced at one time through simultaneous multi-surfaces anodization (SMSA), indicating mass-producibility of the AAOs with comparable qualities. Second, those AAOs can be separated from the aluminum (Al) substrate by applying stair-like reverse biases (SRBs) in the same electrolyte used for the SMSAs, implying simplicity and green technological characteristics. Finally, a unit sequence consisting of the SMSAs sequentially combined with SRBs-based detachment can be applied repeatedly to the same Al substrate, which reinforces the advantages of this strategy and also guarantees the efficient usage of natural resources.

Original languageEnglish
Article numbere56432
JournalJournal of Visualized Experiments
Volume2017
Issue number128
DOIs
StatePublished - 5 Oct 2017

Bibliographical note

Publisher Copyright:
© 2017 Journal of Visualized Experiments.

Keywords

  • Anodic aluminum oxide
  • Direct detachment
  • Engineering
  • Green technology
  • Issue 128
  • Mass-production
  • Simultaneous multi-surfaces anodizations
  • Stair-like reverse biases

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