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Volumn 82, Issue , 2012, Pages 90-97
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The superhydrophobic properties of self-organized microstructured surfaces derived from anodically oxidized Al/Nb and Al/Ta metal layers
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Author keywords
Microstructures; Niobium oxide; Porous anodic alumina; Superhydrophobicity; Tantalum oxide
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Indexed keywords
ALUMINA BARRIER LAYERS;
ALUMINA PORES;
ANODIC ALUMINA;
AS-GROWN;
CASSIE-BAXTER MODEL;
CITRIC ACID ELECTROLYTE;
CONTACT AREAS;
HIGH VOLTAGE;
INTERPORE DISTANCES;
METAL LAYER;
METAL OXIDES;
MICROSTRUCTURED SURFACES;
NON-WETTING PROPERTIES;
OPEN-CIRCUIT DISSOLUTION;
OXIDE STRUCTURES;
POROUS ALUMINA;
POROUS ANODIC ALUMINA;
RE-ANODIZING;
SELF-ORGANIZED ARRAYS;
SHAPE AND SIZE;
SI WAFER;
STATIC CONTACT ANGLE;
STRUCTURED METALS;
SUPERHYDROPHOBIC;
SUPERHYDROPHOBICITY;
WATER DROPLETS;
ALUMINA;
ALUMINUM;
ANODIC OXIDATION;
CITRIC ACID;
CONTACT ANGLE;
METALLIC COMPOUNDS;
MICROSTRUCTURE;
NIOBIUM;
NIOBIUM OXIDE;
SILICON WAFERS;
TANTALUM;
TANTALUM OXIDES;
HYDROPHOBICITY;
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EID: 84866380096
PISSN: 00134686
EISSN: None
Source Type: Journal
DOI: 10.1016/j.electacta.2012.05.065 Document Type: Conference Paper |
Times cited : (33)
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References (24)
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