Fabrication of Super-oil-repellent Surfaces by Two-step Anodizing of Aluminum

机译：铝的两步阳极氧化制备超疏水表面

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In this study, hierarchical dual pore surfaces have been developed by two-step anodizing of aluminum. The first anodizing has been carried out at 390 V in 2 wt% citric acid, and then, the resultant anodic film has been dissolved to disclose the scalloped aluminum substrate with a cell size of ～900 nm. Subsequently, the second anodizing has been carried out at 25 V in 0.3 mol dm~(-3) sulfuric acid electrolyte to generate smaller nanopores. The size of nanopores has been further controlled by pore-widening treatment in 5 wt% phosphoric acid at 303 K. After coating with a fluoroalkyl phosphate monolayer to reduce the surface energy, the dual pillar surfaces with enlarged nanopores show super-repellency even for rapeseed oil as well as for water.

机译：在这项研究中，通过铝的两步阳极氧化技术开发出了分层的双孔表面。第一次阳极氧化是在390 V下于2 wt％的柠檬酸中进行的，然后将所得的阳极膜溶解，以揭示出扇形铝基板的晶胞尺寸约为900 nm。随后，第二次阳极氧化已在25 V下于0.3 mol dm〜（-3）硫酸电解质中进行，以产生较小的纳米孔。通过在303 K下用5 wt％的磷酸在5 wt％的磷酸中进行扩孔处理，可以进一步控制纳米孔的大小。在涂覆氟烷基磷酸酯单层以降低表面能后，具有扩大的纳米孔的双柱表面甚至对油菜籽也显示出超强的排斥性油和水。

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《Pits and pores 5: a symposium in Honor of David Lockwood》|2012年|217-224|共8页
会议地点 Honolulu HI(US)
作者
H. Habazaki; T. Fujii; E. Tsuji; Y. Aoki;
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Division of Materials Chemistry Hokkaido University, Sapporo 060-8628, Japan,Frontier Chemistry Center, Faculty of Engineering, Hokkaido University, Sapporo 060-8628, Japan;

Division of Materials Chemistry Hokkaido University, Sapporo 060-8628, Japan;

Division of Materials Chemistry Hokkaido University, Sapporo 060-8628, Japan;

Division of Materials Chemistry Hokkaido University, Sapporo 060-8628, Japan;

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1. Fabrication of super-oil-repellent dual pillar surfaces with optimized pillar intervals [J] . Fujii T., Aoki Y., Habazaki H. Langmuir: The ACS Journal of Surfaces and Colloids . 2011,第19期

机译：具有优化的支柱间隔的超拒油双支柱表面的制造
2. Fabrication and icing property of superhydrophilic and superhydrophobic aluminum surfaces derived from anodizing aluminum foil in a sodium chloride aqueous solution [J] . Meirong Song, Yuru Liu, Shumin Cui, Applied Surface Science . 2013,第octa15期

机译：在氯化钠水溶液中对铝箔进行阳极氧化得到的超亲水和超疏水铝表面的制备和覆冰性能
3. Influence of the aluminum surface on the final results of a two-step anodizing [J] . Montero-Moreno JM, Sarret M, Muller C Surface & Coatings Technology . 2007,第14期

机译：铝表面对两步阳极氧化最终结果的影响
4. Fabrication of Super-oil-repellent Surfaces by Two-step Anodizing of Aluminum [C] . H. Habazaki, T. Fujii, E. Tsuji, Pacific rim meeting . 2013

机译：通过铝的两步阳极氧化制造超耐油性表面的制造
5. Fabrication of a tapered porous structure in anodic aluminum oxide (AAO) tubular membrane using a two-step anodization process. [D] . Mejia, Elkin. 2009

机译：使用两步阳极氧化工艺在阳极氧化铝（AAO）管状膜中制造锥形多孔结构。
6. Two-Step Cycle for Producing Multiple Anodic Aluminum Oxide (AAO) Films with Increasing Long-Range Order [O] . Eric Choudhary, Veronika Szalai -1

机译：两步循环生产长距离序数增加的多层阳极氧化铝（AAO）膜
7. Erratum to: Effects of Two-Step Anodization on Surface Wettability in Surface Treatment of Aluminum Alloy [O] . Jae Dong Eo, Jingyu Kim, Yongsug Jung, 2021

机译：错误：两步阳极氧化对铝合金表面处理表面润湿性的影响

Fabrication of Super-oil-repellent Surfaces by Two-step Anodizing of Aluminum

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