Spinel cobalt oxide (Co3O4) nanowires grown on Ni foam are successfully synthesized using a novel microwave-assisted template-free method. The effect of reaction temperature, concentration of reactants, and reaction time on the morphology and crystalline structures of the prepared nanowires is studied. The present work has demonstrated that uniform Co 3O4 nanowires with diameters of 500-580 nm and lengths of 6-8 μm can be synthesized under proper reaction condition. Moreover, the proposed microwave-assisted template-free method can significantly reduce reaction time, increase reaction efficiency, and provide better control over the geometry of the nanostructures
Inorganic nanoparticles with controlled size and shape seem especially technologically important due...
A facile, template-free and easily scalable approach has been developed for the preparation of Co3O4...
Synthesis of nanocrystals with highly symmetric microstructure is a well-known challenge in many fie...
Spinel cobalt oxide (CO3O4) nanowires grown on Ni foam are successfully synthesized using a novel mi...
Abstract Spinel cobalt oxide (Co 3 O 4 ) nanowires grown on Ni foam are successfully synthesized usi...
Crystalline Co3O4 nanowire arrays freely supported on Ni foam are successfully synthesized using a t...
Crystalline Co3O4 nanowire arrays freely supported on Ni foam are successfully synthesized using a t...
Crystalline Co 3O 4 nanowire arrays freely supported on Ni foam are successfully synthesized using a...
By carefully controlling the reacting time, temperature, and humidity, we have prepared Co3O4 nanowi...
Effectively attenuating electromagnetic waves in the C and X band through composition and structure ...
The Co3O4 nanowires have been successfully synthesized via modified template method. The as-prepared...
A new route for the formation of shape-selective CoO nanowires has been developed using a simple mic...
An efficient microwave-hydrothermal (MAH) method has been developed for the synthesis of highly crys...
Cobalt oxide (Co3O4) nanostructures were synthesized by a simple surfactant-assisted hydrothermal m...
An efficient microwave-hydrothermal (MAH) method has been developed for the synthesis of highly crys...
Inorganic nanoparticles with controlled size and shape seem especially technologically important due...
A facile, template-free and easily scalable approach has been developed for the preparation of Co3O4...
Synthesis of nanocrystals with highly symmetric microstructure is a well-known challenge in many fie...
Spinel cobalt oxide (CO3O4) nanowires grown on Ni foam are successfully synthesized using a novel mi...
Abstract Spinel cobalt oxide (Co 3 O 4 ) nanowires grown on Ni foam are successfully synthesized usi...
Crystalline Co3O4 nanowire arrays freely supported on Ni foam are successfully synthesized using a t...
Crystalline Co3O4 nanowire arrays freely supported on Ni foam are successfully synthesized using a t...
Crystalline Co 3O 4 nanowire arrays freely supported on Ni foam are successfully synthesized using a...
By carefully controlling the reacting time, temperature, and humidity, we have prepared Co3O4 nanowi...
Effectively attenuating electromagnetic waves in the C and X band through composition and structure ...
The Co3O4 nanowires have been successfully synthesized via modified template method. The as-prepared...
A new route for the formation of shape-selective CoO nanowires has been developed using a simple mic...
An efficient microwave-hydrothermal (MAH) method has been developed for the synthesis of highly crys...
Cobalt oxide (Co3O4) nanostructures were synthesized by a simple surfactant-assisted hydrothermal m...
An efficient microwave-hydrothermal (MAH) method has been developed for the synthesis of highly crys...
Inorganic nanoparticles with controlled size and shape seem especially technologically important due...
A facile, template-free and easily scalable approach has been developed for the preparation of Co3O4...
Synthesis of nanocrystals with highly symmetric microstructure is a well-known challenge in many fie...