AI Article Synopsis
- A novel technique was developed to convert aluminum into transparent aluminum oxide through a small-scale anodization process using droplets.
- Anodization at 2 V for 10 minutes produced a uniform and transparent oxide layer, with chemical analysis showing the presence of aluminum oxide/hydroxide.
- The process resulted in a smoother surface and randomly distributed nanopores, indicating potential for broader applications in sustainable electronics and other fields.
Article Abstract
A localized conversion of aluminum into transparent aluminum oxide by droplet-scale anodization is demonstrated in this work. The anodized region can be contained and controlled on the basis of the electrowetting response of the droplet. A highly uniform and transparent anodized spot was achieved using an anodization voltage of 2 V for 10 min. We analyzed the chemical evolution during the formation of the transparent oxide layer using X-ray photoelectron spectroscopy, which revealed the dynamic interplay between Al(OH), AlO(OH), and AlO formation and dissolution during the conversion process. The dominant presence of aluminum oxide/hydroxide on the transparent spot after anodization was observed. The morphological characteristics of the transparent oxide layer exhibited a reduction in surface roughness as anodization time increased. Additionally, the formation of randomly distributed nanopores was observed in the anodized samples. X-ray diffraction results revealed the amorphous nature of the produced transparent oxide layer. This droplet-scale anodization technique can be extended to other transparent metal oxides, providing an environmentally friendly and cost-effective fabrication route toward sustainable electronics and other related applications.
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Article Synopsis
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- The process resulted in a smoother surface and randomly distributed nanopores, indicating potential for broader applications in sustainable electronics and other fields.
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