TY - JOUR
T1 - Recent Progress in the Fabrication and Optical Properties of Nanoporous Anodic Alumina
AU - Choudhari, Khoobaram S.
AU - Choi, Chang Hwan
AU - Chidangil, Santhosh
AU - George, Sajan D.
N1 - Funding Information:
Funding: The research was financially supported by the joint Manipal Academy of Higher Educa‐ tion and FIST program of the Government of India (Grant No. SR/FST/PSI‐174/2012), the Technol‐ ogy Division, BDTD‐DST, Government of India (Grant No. IDP/BDTD/20/2019) and Science and Engineering Board, DST, Government of India (Grant No. CRG/2020/002096).
Funding Information:
The research was financially supported by the joint Manipal Academy of Higher Education and FIST program of the Government of India (Grant No. SR/FST/PSI?174/2012), the Technology Division, BDTD?DST, Government of India (Grant No. IDP/BDTD/20/2019) and Science and Engineering Board, DST, Government of India (Grant No. CRG/2020/002096).
Publisher Copyright:
© 2022 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2022/1/28
Y1 - 2022/1/28
N2 - The fabrication of a thick oxide layer onto an aluminum surface via anodization has been a subject of intense research activity for more than a century, largely due to protective and decora-tive applications. The capability to create well‐defined pores via a cost‐effective electrochemical oxidation technique onto the surface has made a major renaissance in the field, as the porous surfaces exhibit remarkably different properties compared to a bulk oxide layer. Amongst the various na-noporous structures being investigated, nanoporous anodic alumina (NAA) with well‐organized and highly ordered hexagonal honeycomb‐like pores has emerged as the most popular nano-material due to its wide range of applications, ranging from corrosion resistance to bacterial repel-ling surfaces. As compared to conventional nanostructure fabrication, the electrochemical anodiza-tion route of NAA with well‐controlled pore parameters offers an economical route for fabricating nanoscale materials. The review comprehensively reflects the progress made in the fabrication route of NAA to obtain the material with desired pore properties, with a special emphasis on self‐organ-ization and pore growth kinetics. Detailed accounts of the various conditions that can play an important role in pore growth kinetics and pore parameters are presented. Further, recent developments in the field of controlling optical properties of NAA are discussed. A critical outlook on the future trends of the fabrication of NAA and its optical properties on the emerging nanomaterials, sensors, and devices are also outlined.
AB - The fabrication of a thick oxide layer onto an aluminum surface via anodization has been a subject of intense research activity for more than a century, largely due to protective and decora-tive applications. The capability to create well‐defined pores via a cost‐effective electrochemical oxidation technique onto the surface has made a major renaissance in the field, as the porous surfaces exhibit remarkably different properties compared to a bulk oxide layer. Amongst the various na-noporous structures being investigated, nanoporous anodic alumina (NAA) with well‐organized and highly ordered hexagonal honeycomb‐like pores has emerged as the most popular nano-material due to its wide range of applications, ranging from corrosion resistance to bacterial repel-ling surfaces. As compared to conventional nanostructure fabrication, the electrochemical anodiza-tion route of NAA with well‐controlled pore parameters offers an economical route for fabricating nanoscale materials. The review comprehensively reflects the progress made in the fabrication route of NAA to obtain the material with desired pore properties, with a special emphasis on self‐organ-ization and pore growth kinetics. Detailed accounts of the various conditions that can play an important role in pore growth kinetics and pore parameters are presented. Further, recent developments in the field of controlling optical properties of NAA are discussed. A critical outlook on the future trends of the fabrication of NAA and its optical properties on the emerging nanomaterials, sensors, and devices are also outlined.
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U2 - 10.3390/nano12030444
DO - 10.3390/nano12030444
M3 - Review article
C2 - 35159789
AN - SCOPUS:85123554943
SN - 2079-4991
VL - 12
JO - Nanomaterials
JF - Nanomaterials
IS - 3
M1 - 444
ER -