A co-reduction synthesis of superconducting NbC nanorods

Abstract: NbC nanorods with diameters of 50-150 nm were successfully synthesized through a new chemical route by using NbCl 5 and hexachlorobutadiene (C 4 Cl 6 ) as Nb and C sources, and Na metal as the reductant at 600 • C in an autoclave. This reaction temperature is much lower than that used in traditional methods. The as-prepared NbC nanorods were characterized by x-ray powder diffraction, transmission electron microscopy and x-ray photoelectron spectra. Magnetization measurement indicated that the NbC nanorods have… Show more

“…The measurement was performed in step mode with a step size of 0.02 and a stepping time of 8 s. For the quantitative phase analysis of the composite sample, the PXRD data was analysed by the Java based MAUD program. 11,22 The isotropic size (d XRD ) for NbC was calculated to be 60 nm from the refinement process. The microstructure of the sample was further studied using a transmission electron microscope (TEM) (JEM 2100, JEOL) operated at 200 kV.…”

“…It is found to be particularly useful in hot-electron bolometric superconducting mixtures 1 and in superconducting radio-frequency (SCRF) cavities. 6,7 Although, since its discovery in 1964, 8 significant research attention has been paid to improve its superconducting properties 1,[9][10][11] by various techniques, it is currently the least studied superconductor in the literature. [3][4][5] However, due to the wide range of homogeneity of intermixing (NbC 1.0 to NbC 0.72 ), the cell parameters (a) and the superconducting transition temperature (T c ) of NbC are usually found to depend strongly on the carbon content.…”

High critical field NbC superconductor on carbon spheres

“…The measurement was performed in step mode with a step size of 0.02 and a stepping time of 8 s. For the quantitative phase analysis of the composite sample, the PXRD data was analysed by the Java based MAUD program. 11,22 The isotropic size (d XRD ) for NbC was calculated to be 60 nm from the refinement process. The microstructure of the sample was further studied using a transmission electron microscope (TEM) (JEM 2100, JEOL) operated at 200 kV.…”

“…It is found to be particularly useful in hot-electron bolometric superconducting mixtures 1 and in superconducting radio-frequency (SCRF) cavities. 6,7 Although, since its discovery in 1964, 8 significant research attention has been paid to improve its superconducting properties 1,[9][10][11] by various techniques, it is currently the least studied superconductor in the literature. [3][4][5] However, due to the wide range of homogeneity of intermixing (NbC 1.0 to NbC 0.72 ), the cell parameters (a) and the superconducting transition temperature (T c ) of NbC are usually found to depend strongly on the carbon content.…”

High critical field NbC superconductor on carbon spheres

“…String-length distributions were obtained from image analysis (ImageJ v1.31v). For each size distribution, several images were used, covering a total area of over 1 mm 2 . After creating binary images, the maximum Ferret's diameter was measured for each aggregate over 3 lm.…”

“…rods, [2] to solar cells, [3] sensors, [4] and gene therapy. [5] Much research has focused on metallic and semiconductor rods less than 50 nm in length because of their useful optical and electronic properties.…”

pH‐Responsive Microrods Produced by Electric‐Field‐Induced Aggregation of Colloidal Particles

“…For example, NbC is not only a catalyst but also a superconducting material [2], VC and Mo 2 C are powerful catalysts and considered potential substitutes of noble metals in catalysis [3,4], and TiC can be used for anti-wear coating on cutting tools [5]. Various methods for the synthesis of transition metal carbides have been reported, such as direct carbonization of metal [6e8], chemical vapor deposition [9,10], carbothermal reduction of metal oxides with carbon at high temperature [11e13], solid state metathesis [14,15], a thermal reduction of metal oxides and carbonate with Mg [16], and coreduction of metal halides and C x Cl y with sodium [17]. Metal oxides are more chemically stable, cheaper, and more common in nature compared with metal halides.…”

A thermal reduction route to nanocrystalline transition metal carbides from waste polytetrafluoroethylene and metal oxides