TY - JOUR
T1 - Formation of Bright White Plasma Electrolytic Oxidation Films with a Uniform Maze-Like Structure by Anodizing Aluminum in Ammonium Tetraborate Solutions
AU - Kikuchi, Tatsuya
AU - Sato, Miu
AU - Iwai, Mana
AU - Nakajima, Daiki
AU - Nunomura, Junji
AU - Oya, Yoshiyuki
AU - Natsui, Shungo
N1 - Funding Information:
The SEM and STEM observations in the present investigation were financially supported by the Nanotechnology Platform Program at Hokkaido University (A-19-HK-0034 and A-20-HK-0037). We wish to thank Dr. Takashi Endo and Mr. Ryo Oota for their technical support in these observations.
Publisher Copyright:
© 2022 Electrochemical Society Inc.. All rights reserved.
PY - 2022/4/1
Y1 - 2022/4/1
N2 - Bright white plasma electrolytic oxidation (PEO) films with uniform maze-like structures were obtained by anodizing Al in an ammonium tetraborate solution. High-purity Al plates were galvanostatically anodized in 0.3 2.4 M ammonium tetraborate solutions at 303 343 K and 10 100 Am-2. A PEO film consisting of an outer porous layer consisting of amorphous alumina and crystalline alumina with α-and γ-phases and an inner amorphous barrier alumina layer was obtained on the Al surface. An extremely uneven PEO film with various pore sizes and many cracks was formed in a 0.3 M ammonium tetraborate solution, whereas a relatively uniform porous PEO film with similar pore sizes was obtained in 0.9 2.4 M solutions. This difference in the PEO film morphology was due to the plasma generation behavior while anodizing. The lightness of the PEO film increased with increasing anodizing time and PEO film thickness; thus, a bright white PEO film measuring 87.5 in lightness (L*) was formed on the Al surface. The water wettability of the PEO film exhibited weak hydrophilicity. Moreover, a superhydrophobic PEO film with a contact angle of 154 was easily fabricated by self-assembled monolayer modification. Similar bright white PEO coatings were successfully fabricated on various industrial alloys.
AB - Bright white plasma electrolytic oxidation (PEO) films with uniform maze-like structures were obtained by anodizing Al in an ammonium tetraborate solution. High-purity Al plates were galvanostatically anodized in 0.3 2.4 M ammonium tetraborate solutions at 303 343 K and 10 100 Am-2. A PEO film consisting of an outer porous layer consisting of amorphous alumina and crystalline alumina with α-and γ-phases and an inner amorphous barrier alumina layer was obtained on the Al surface. An extremely uneven PEO film with various pore sizes and many cracks was formed in a 0.3 M ammonium tetraborate solution, whereas a relatively uniform porous PEO film with similar pore sizes was obtained in 0.9 2.4 M solutions. This difference in the PEO film morphology was due to the plasma generation behavior while anodizing. The lightness of the PEO film increased with increasing anodizing time and PEO film thickness; thus, a bright white PEO film measuring 87.5 in lightness (L*) was formed on the Al surface. The water wettability of the PEO film exhibited weak hydrophilicity. Moreover, a superhydrophobic PEO film with a contact angle of 154 was easily fabricated by self-assembled monolayer modification. Similar bright white PEO coatings were successfully fabricated on various industrial alloys.
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U2 - 10.1149/1945-7111/ac62bc
DO - 10.1149/1945-7111/ac62bc
M3 - Article
AN - SCOPUS:85129068883
SN - 0013-4651
VL - 169
JO - Journal of the Electrochemical Society
JF - Journal of the Electrochemical Society
IS - 4
M1 - 043505
ER -
