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Influence of wet etching time cycles on morphology features of thin porous Anodic Aluminum oxide (AAO) template for nanostructure’s synthesis
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Cited by 10 publications
(2 citation statements)
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“…The two-step oxidation method involves etching of the oxide layer produced by the first oxidation and then a second oxidation on the aluminum surface with regular pit morphology, thereby increasing the order of the porous alumina pores. Subsequently, the AAO template parameters, including the pore diameter and thickness, were adjusted by the oxidation conditions, such as the etching time, anodization time and electrolytes [22,23]. For example, AAO templates have been successfully prepared in different electrolytes: 10-30 nm pore diameter in sulfuric acid [24,25] and 30-100 nm pore diameter in oxalic acid [26].…”
Section: Introductionmentioning
confidence: 99%
“…The two-step oxidation method involves etching of the oxide layer produced by the first oxidation and then a second oxidation on the aluminum surface with regular pit morphology, thereby increasing the order of the porous alumina pores. Subsequently, the AAO template parameters, including the pore diameter and thickness, were adjusted by the oxidation conditions, such as the etching time, anodization time and electrolytes [22,23]. For example, AAO templates have been successfully prepared in different electrolytes: 10-30 nm pore diameter in sulfuric acid [24,25] and 30-100 nm pore diameter in oxalic acid [26].…”
Section: Introductionmentioning
confidence: 99%
“…Os estudos realizados por Chahrour et al (56) evidenciaram o aumento do diâmetro do nanoporo aplicando tempos maiores de processo de anodização, o que possibilitou a obtenção de nanobastões de cobre. Contudo, para que se tenha um processo com um menor tempo se faz necessária a aplicação de uma densidade de corrente maior (57).…”
Section: Tempo De Anodizaçãounclassified
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