2014
DOI: 10.1016/j.electacta.2013.12.186
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Fabrication of Anodic Porous Alumina by Squaric Acid Anodizing

Abstract: The growth behavior of anodic porous alumina formed via anodizing in a new electrolyte, squaric acid (3,4-dihydroxy-3-cyclobutene-1,2-dione), is reported for the first time. A high-purity aluminum foil was anodized in a 0.1 M squaric acid solution at 293 K and a constant applied potential of 100-150 V. Anodic oxides grew on the aluminum foil at applied potentials of 100-120 V, but a burned oxide film was formed at higher voltage. Anodic porous alumina with a cell size of approximately 200-400 nm and sub-100-nm… Show more

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Cited by 56 publications
(49 citation statements)
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“…Therefore, croconic acid anodizing is also useful for surface finishing and nanostructuring applications. Based on the experimental results obtained in our previous study [54] and those obtained in this work, the cyclic oxocarbon acids, squaric, croconic, and rhodizonic acid, form suitable electrolytes for anodic porous alumina fabrication. Thus, heptagonic acid (Fig.…”
Section: Growth Behavior Of the Anodic Porous Alumina Formed By Crocomentioning
confidence: 99%
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“…Therefore, croconic acid anodizing is also useful for surface finishing and nanostructuring applications. Based on the experimental results obtained in our previous study [54] and those obtained in this work, the cyclic oxocarbon acids, squaric, croconic, and rhodizonic acid, form suitable electrolytes for anodic porous alumina fabrication. Thus, heptagonic acid (Fig.…”
Section: Growth Behavior Of the Anodic Porous Alumina Formed By Crocomentioning
confidence: 99%
“…Very recently, we discovered a new organic electrolyte for anodic porous alumina fabrication, squaric acid (3,4-dihydroxy-3-cyclobutene-1,2-dione) [54], which is different from the carboxylic acids described above. Squaric acid is currently the most popular cyclic oxocarbon acid used in organic chemistry and is a strong diacid composed of two acidic hydroxyl groups with low dissociation constants of pKa 1 = 0.5 and pKa 2 = 3.5 [55].…”
Section: Introductionmentioning
confidence: 99%
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“…Cyclic oxocarbonic acids including squaric acid with a four-membered ring, croconic acid with a five-membered ring, and rhodizonic acid with a six-membered ring have recently been reported as useful electrolytes for the formation of porous oxide films [87,88]. The porous oxide films can be obtained under the following electrochemical conditions: squaric acid at 100-120 V, croconic acid at 90-125 V, and rhodizonic acid at 80-160 V. The growth behavior of the porous oxide formed using these oxocarbonic acids is still unknown, and it is interesting to understand the growth behavior for the formation mechanism of porous oxides, although these organic electrolytes are expensive and not suitable for industrial applications.…”
Section: Organic Cyclic Oxocarbonic Electrolytesmentioning
confidence: 99%
“…The ideal cell arrangement of porous alumina can be achieved via sulfuric, selenic, and phosphoric acid anodizing, whereas poorly ordered porous alumina is fabricated via chromic acid anodizing [22,23]. Cyclic oxocarbonic acids such as squaric [24], croconic, and rhodizonic[25] acid were very recently determined to be suitable organic electrolytes for fabricating porous alumina, although the details of the growth behavior are still unknown. Carboxylic acids can also be employed as suitable electrolytes for fabricating porous alumina, including oxalic [26,27] Typical dicarboxylic acids and their corresponding acid dissociation constants, pKa 1 and pKa 2 , are summarized in Table 1[ [40][41][42].…”
Section: Introductionmentioning
confidence: 99%