Robust Superhydrophilic/Hydrophobic Surface Based on Self-Aggregated Al2O3 Nanowires by Single-Step Anodization and Self-Assembly Method
Superhydrophilic and superhydrophobic surfaces were studied with an eye to industrial
applications and use as research tools. Conventional methods involve complex and time-
consuming processes and cannot feasibly produce large-area three-dimensional surfaces.
Here, we report robust and large-area alumina nanowire structures with superhydrophobic
or superhydrophilic properties, generated by an inexpensive single-step anodization
process that can routinely create arbitrary three-dimensional shapes. This process is …
applications and use as research tools. Conventional methods involve complex and time-
consuming processes and cannot feasibly produce large-area three-dimensional surfaces.
Here, we report robust and large-area alumina nanowire structures with superhydrophobic
or superhydrophilic properties, generated by an inexpensive single-step anodization
process that can routinely create arbitrary three-dimensional shapes. This process is …
[引用][C] Robust Superhydrophilic/Hydrophobic Surface Based on Self-Aggregated Al2O3 Nanowires by Single-Step Anodization and Self-Assembly Method
K Yeongae, L Sangmin, C Handong, P Byungrak… - 2012