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Volumn 3, Issue 4, 2011, Pages 1541-1552
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Conductive indium-tin oxide nanowire and nanotube arrays made by electrochemically assisted deposition in template membranes: Switching between wire and tube growth modes by surface chemical modification of the template
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Author keywords
[No Author keywords available]
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Indexed keywords
ACIDIC AQUEOUS SOLUTION;
ANODIC ALUMINIUM OXIDE;
ASSISTED DEPOSITION;
CHARACTERIZATION METHODS;
CRYSTALLINE GRAINS;
CUBIC CRYSTAL STRUCTURES;
DENSE ARRAYS;
ELECTRICAL CONDUCTIVITY MEASUREMENTS;
FIELD EMISSION SCANNING ELECTRON MICROSCOPY;
GROWTH MODES;
INDIUM TIN OXIDE;
INORGANIC PRECURSOR;
ITO FILMS;
MORPHOLOGICAL FEATURES;
NANOTUBE ARRAYS;
POLYCARBONATE MEMBRANES;
PORE WALL;
PORE WALL SURFACES;
PRE-TREATMENT;
SCALABLE SOLUTION;
SURFACE CHEMICAL MODIFICATIONS;
TIN-DOPED INDIUM;
TUBE GROWTH;
VERTICALLY ALIGNED;
ANODIC OXIDATION;
AUGER ELECTRON SPECTROSCOPY;
CHEMICAL MODIFICATION;
CRYSTAL STRUCTURE;
CRYSTALLINE MATERIALS;
ELECTRIC CONDUCTIVITY;
ELECTRIC WIRE;
ELECTRONS;
FIELD EMISSION;
FIELD EMISSION CATHODES;
FIELD EMISSION MICROSCOPES;
GOLD COATINGS;
INDIUM;
INDIUM COMPOUNDS;
NANOTUBES;
NANOWIRES;
PORE PRESSURE;
QUAY WALLS;
SCANNING ELECTRON MICROSCOPY;
SURFACE CHEMISTRY;
TIN;
TIN OXIDES;
TRANSMISSION ELECTRON MICROSCOPY;
ELECTRON TUBES;
INDIUM TIN OXIDE;
NANOTUBE;
TIN DERIVATIVE;
ARTICLE;
ARTIFICIAL MEMBRANE;
CHEMISTRY;
CONFORMATION;
ELECTRIC CONDUCTIVITY;
ELECTROPLATING INDUSTRY;
MACROMOLECULE;
MATERIALS TESTING;
METHODOLOGY;
PARTICLE SIZE;
RADIATION EXPOSURE;
SURFACE PROPERTY;
ULTRASTRUCTURE;
ELECTRIC CONDUCTIVITY;
ELECTROPLATING;
MACROMOLECULAR SUBSTANCES;
MATERIALS TESTING;
MEMBRANES, ARTIFICIAL;
MOLECULAR CONFORMATION;
NANOTUBES;
PARTICLE SIZE;
SURFACE PROPERTIES;
TIN COMPOUNDS;
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EID: 79953762549
PISSN: 20403364
EISSN: 20403372
Source Type: Journal
DOI: 10.1039/c0nr00789g Document Type: Article |
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Times cited : (21)
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References (60)
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