The production of pure carbon spheres was achieved in the absence of a catalyst through the direct pyrolysis of two hydrocarbon sources, acetylene and ethylene. Systematic studies using acetylene as the feedstock indicated that the size distribution of the resulting carbon microspheres can be controlled by pyrolysis temperature, time and feedstock flow rate. The resulting spheres were fully characterised by transmission electron microscopy (TEM) and thermogravimetric analysis. The TEM examination showed that these spheres have a ball-like and chain-like morphology, and the balls have smooth surfaces with a variation in diameter size and distribution determined by the reaction conditions. Carbon microsphere-supported cobalt catalysts were sy...
We demonstrate a bio-inspired one-pot synthesis of carbon nanospheres with micro-porosity achieved f...
A study has examined the conversion efficiency of cobalt containing catalysts (Co catalysts) made fr...
Cosmo-mimetic carbon micro-coils were obtained by the catalytic pyrolysis of acetylene with a small ...
The production of pure carbon spheres was achieved in the absence of a catalyst through the direct p...
[[abstract]]Large-scale production of pure carbon spheres, with diameters from 50 nm to 1 mu m, has ...
In this paper, we report an in-situ method for one-pot synthesis of carbon microspheres supported co...
Carbon spheres have been synthesized using a mixed-valent oxide-catalytic carbonization process in m...
Monodispersed nanospheres of carbon are obtained by the pyrolysis of methane or benzene at high temp...
The hydrogenation of cinnamaldehyde is usually performed in the liquid phase in batch mode. In this ...
We report a one-pot and eco-friendly synthesis of carbon-supported cobalt nanoparticles, achieved by...
Cobalt catalysts are known to have a high activity and selectivity in the Fischer–Tropsch reaction c...
In the Fischer-Tropsch (FT) synthesis, CO and H2 (synthesis gas) are converted into hydrocarbons tha...
The metal- and solvent-free single-step approach for the synthesis of carbon microspheres using vari...
The present paper describes a method for producing graphitic carbon nanospheres (GCNSs) by chemical ...
The substrate for the catalyst is important in chemical vapor deposition for carbon nanostructure sy...
We demonstrate a bio-inspired one-pot synthesis of carbon nanospheres with micro-porosity achieved f...
A study has examined the conversion efficiency of cobalt containing catalysts (Co catalysts) made fr...
Cosmo-mimetic carbon micro-coils were obtained by the catalytic pyrolysis of acetylene with a small ...
The production of pure carbon spheres was achieved in the absence of a catalyst through the direct p...
[[abstract]]Large-scale production of pure carbon spheres, with diameters from 50 nm to 1 mu m, has ...
In this paper, we report an in-situ method for one-pot synthesis of carbon microspheres supported co...
Carbon spheres have been synthesized using a mixed-valent oxide-catalytic carbonization process in m...
Monodispersed nanospheres of carbon are obtained by the pyrolysis of methane or benzene at high temp...
The hydrogenation of cinnamaldehyde is usually performed in the liquid phase in batch mode. In this ...
We report a one-pot and eco-friendly synthesis of carbon-supported cobalt nanoparticles, achieved by...
Cobalt catalysts are known to have a high activity and selectivity in the Fischer–Tropsch reaction c...
In the Fischer-Tropsch (FT) synthesis, CO and H2 (synthesis gas) are converted into hydrocarbons tha...
The metal- and solvent-free single-step approach for the synthesis of carbon microspheres using vari...
The present paper describes a method for producing graphitic carbon nanospheres (GCNSs) by chemical ...
The substrate for the catalyst is important in chemical vapor deposition for carbon nanostructure sy...
We demonstrate a bio-inspired one-pot synthesis of carbon nanospheres with micro-porosity achieved f...
A study has examined the conversion efficiency of cobalt containing catalysts (Co catalysts) made fr...
Cosmo-mimetic carbon micro-coils were obtained by the catalytic pyrolysis of acetylene with a small ...
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