2023
DOI: 10.1007/s10854-023-10440-8
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Influence of heat treatment process on leakage current of anodic aluminum oxide films

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Cited by 4 publications
(1 citation statement)
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“…With the development of society, the demand for high-performance energy materials is increasing. Owing to the wide application in photoelectrocatalysis, biosensors, supercapacitors, and so on, the preparation of TiO 2 has been a research hot spot for a long time. , Owing to the optical, structured, and electronic advantages, nanostructured TiO 2 -based photoelectrodes are promising for application as photoelectrochemical (PEC) devices, and photoelectrodes based on nanowire, nanorod, and nanoparticle structure have been widely studied. Nowadays, many researchers focus on the catalysts, such as TiO 2 /Ti 3 C 2 , Bi/BiOBr, and N-graphyne/BiOCl 0.5 Br 0.5 , but a few focus on its carrier. However, the photoelectrochemical properties of anodic TiO 2 nanotubes (ATNTs), one of its important carriers, have been studied less. It is worth mentioning that the ATNT array is usually formed in the electrolyte containing halogen ions typically, whereas the dense film in the electrolyte without halogen ions. Some researchers attributed the formation of porous film to an electrochemical dissolution reaction (i.e., TiO 2 + 6F – + 4H + → [TiF 6 ] 2– + 2H 2 O), and some other researchers suggested that the mechanism of porous film formation is related to the contamination layer formed by halogen ions. In summary, all of these studies supported the conclusion that the anion is indispensable for the formation of anodic TiO 2 nanotubes. Unlike other forms of TiO 2 , ATNT arrays may have defects in strength due to corrosion by fluoride ions during rapid growth. Therefore, it is crucial to slow down or prevent the corrosion of fluoride ions on the nanostructure during anodization to improve the stability of the nanotube array performance.…”
Section: Introductionmentioning
confidence: 99%
“…With the development of society, the demand for high-performance energy materials is increasing. Owing to the wide application in photoelectrocatalysis, biosensors, supercapacitors, and so on, the preparation of TiO 2 has been a research hot spot for a long time. , Owing to the optical, structured, and electronic advantages, nanostructured TiO 2 -based photoelectrodes are promising for application as photoelectrochemical (PEC) devices, and photoelectrodes based on nanowire, nanorod, and nanoparticle structure have been widely studied. Nowadays, many researchers focus on the catalysts, such as TiO 2 /Ti 3 C 2 , Bi/BiOBr, and N-graphyne/BiOCl 0.5 Br 0.5 , but a few focus on its carrier. However, the photoelectrochemical properties of anodic TiO 2 nanotubes (ATNTs), one of its important carriers, have been studied less. It is worth mentioning that the ATNT array is usually formed in the electrolyte containing halogen ions typically, whereas the dense film in the electrolyte without halogen ions. Some researchers attributed the formation of porous film to an electrochemical dissolution reaction (i.e., TiO 2 + 6F – + 4H + → [TiF 6 ] 2– + 2H 2 O), and some other researchers suggested that the mechanism of porous film formation is related to the contamination layer formed by halogen ions. In summary, all of these studies supported the conclusion that the anion is indispensable for the formation of anodic TiO 2 nanotubes. Unlike other forms of TiO 2 , ATNT arrays may have defects in strength due to corrosion by fluoride ions during rapid growth. Therefore, it is crucial to slow down or prevent the corrosion of fluoride ions on the nanostructure during anodization to improve the stability of the nanotube array performance.…”
Section: Introductionmentioning
confidence: 99%