Add to ORKGTungsten-oxide and molybdenum-oxide nanostructures are fabricated directly from the surfaces of metal substrates using counter-flow diffusion-flame synthesis method, which allows for correlation of morphologies with local conditions. Computational simulations aid in tailoring the flame structure with respect to chemical species and temperature. Furthermore, methane flames are compared with hydrogen flames, which only have H2O (and no CO2) as product species. The temperature profiles of the methane and hydrogen flames are strategically matched in order to compare the effect of chemical species produced by the flame which serve as reactants for nanostructure growth. Single-crystalline, well-vertically-aligned, and dense WO2.9 nanowires (d...
Large-area aligned Mo nanowires have been grown on stainless steel substrates by high-temperature ch...
To unravel the influence of the temperature and plasma species on the growth of singlecrystalline me...
Nanometer-sized liquid droplets formed at temperatures below the bulk melting point become supercool...
Molybdenum-oxide nanoplates are grown directly from the surface of molybdenum substrates using a cat...
The synthesis of carbon nanotubes (CNTs) and metal-oxide nanowires (e.g. ZnO, WO2.9) are examined ex...
Transition metal (tungsten and molybdenum) and non-metal (nitrogen) doped titanium dioxide nanoparti...
Tungsten oxide nanowires are grown directly on tungsten wires and plates using thermal heating in an...
Uniform tungsten oxide nanowires with small diameter have been fabricated with potassium hydroxide a...
Flame aerosol synthesis is a continuous one-step method to obtain metal oxides. However, productio...
We have investigated the formation of tungsten oxide nanowires under different chemical vapor deposi...
We present the synthesis of three-dimensional tungsten oxide (WO3 − x) nanostructures, called nanoca...
The hybrid structure of nanoparticle-decorated nanowires (NP@NW) combines the merits of large specif...
Nanometer-sized liquid droplets formed at temperatures below the bulk melting point become supercool...
Abstract Laser pyrolysis has been used to synthesize WO3 nanostructures. Spherical nano-particles we...
Tungsten oxide (W18O49) nanorods were grown by directly heating tungsten foils covered with potassiu...
Large-area aligned Mo nanowires have been grown on stainless steel substrates by high-temperature ch...
To unravel the influence of the temperature and plasma species on the growth of singlecrystalline me...
Nanometer-sized liquid droplets formed at temperatures below the bulk melting point become supercool...
Molybdenum-oxide nanoplates are grown directly from the surface of molybdenum substrates using a cat...
The synthesis of carbon nanotubes (CNTs) and metal-oxide nanowires (e.g. ZnO, WO2.9) are examined ex...
Transition metal (tungsten and molybdenum) and non-metal (nitrogen) doped titanium dioxide nanoparti...
Tungsten oxide nanowires are grown directly on tungsten wires and plates using thermal heating in an...
Uniform tungsten oxide nanowires with small diameter have been fabricated with potassium hydroxide a...
Flame aerosol synthesis is a continuous one-step method to obtain metal oxides. However, productio...
We have investigated the formation of tungsten oxide nanowires under different chemical vapor deposi...
We present the synthesis of three-dimensional tungsten oxide (WO3 − x) nanostructures, called nanoca...
The hybrid structure of nanoparticle-decorated nanowires (NP@NW) combines the merits of large specif...
Nanometer-sized liquid droplets formed at temperatures below the bulk melting point become supercool...
Abstract Laser pyrolysis has been used to synthesize WO3 nanostructures. Spherical nano-particles we...
Tungsten oxide (W18O49) nanorods were grown by directly heating tungsten foils covered with potassiu...
Large-area aligned Mo nanowires have been grown on stainless steel substrates by high-temperature ch...
To unravel the influence of the temperature and plasma species on the growth of singlecrystalline me...
Nanometer-sized liquid droplets formed at temperatures below the bulk melting point become supercool...