Add to ORKGThe facile preparation of high-purity carbon nanofibers (CNFs) remains challenging due to the high complexity and low controllability in reaction. A novel approach using gas-induced formation of Cu crystals to control the growth of CNFs is developed in this study. By adjusting the atmospheric composition, controllable preparation of Cu nanoparticles (NPs) with specific size and shape is achieved, and they are further used as a catalyst for the growth of straight or helical CNFs with good selectivity and high yield. The preparation of Cu NPs and the formation of CNFs are completed by a one-step process. The inducing effect of N-2, Ar, H-2 and C2H2 on the formation of Cu NPs is systematically investigated through a combined experimental and c...
The controlled growth of high-purity three-dimensional carbon nanofiber (CNF) networks is achieved o...
Controlling the generation of empty cage, endohedral metalofullerenes and carbon nanotubes is an imp...
Graphene and carbon nanotubes exhibit extraordinary and diverse properties, and therefore these nano...
The facile preparation of high-purity carbon nanofibers (CNFs) remains challenging due to the high c...
Carbon nanostructures with precisely controlled shapes are difficult materials to synthesize. A face...
This study reports on the synthesis of carbon nanofibers via chemical vapor deposition using Co and ...
In this paper, Cu nanoparticles with narrow size distribution are synthesized by reduction of CuO fi...
Growth of novel carbon nanomaterials has been of great interest for researchers due to their potenti...
In this study carbon nanofiber films were synthesized via chemical vapor deposition with acetylene a...
Carbon nanofibers were obtained by thermo-catalytic decomposition of methane at 700 °C over Ni and N...
Carbon nanofibers (CNFs) and carbon nanotubes (CNTs) have attracted intense research efforts with th...
The article presents the results of experiments on the synthesis of carbon nanofibers by thermal che...
A novel approach to synthesize carbon nanofibers (CNFs) directly on the surface of metal μm-sized pa...
Determination of the optimal operating conditions for large-scale production of carbonaceous nanomat...
Carbon nanofibers (CNFs) and carbon nanotubes (CNTs) [1] with their interesting structural, chemical...
The controlled growth of high-purity three-dimensional carbon nanofiber (CNF) networks is achieved o...
Controlling the generation of empty cage, endohedral metalofullerenes and carbon nanotubes is an imp...
Graphene and carbon nanotubes exhibit extraordinary and diverse properties, and therefore these nano...
The facile preparation of high-purity carbon nanofibers (CNFs) remains challenging due to the high c...
Carbon nanostructures with precisely controlled shapes are difficult materials to synthesize. A face...
This study reports on the synthesis of carbon nanofibers via chemical vapor deposition using Co and ...
In this paper, Cu nanoparticles with narrow size distribution are synthesized by reduction of CuO fi...
Growth of novel carbon nanomaterials has been of great interest for researchers due to their potenti...
In this study carbon nanofiber films were synthesized via chemical vapor deposition with acetylene a...
Carbon nanofibers were obtained by thermo-catalytic decomposition of methane at 700 °C over Ni and N...
Carbon nanofibers (CNFs) and carbon nanotubes (CNTs) have attracted intense research efforts with th...
The article presents the results of experiments on the synthesis of carbon nanofibers by thermal che...
A novel approach to synthesize carbon nanofibers (CNFs) directly on the surface of metal μm-sized pa...
Determination of the optimal operating conditions for large-scale production of carbonaceous nanomat...
Carbon nanofibers (CNFs) and carbon nanotubes (CNTs) [1] with their interesting structural, chemical...
The controlled growth of high-purity three-dimensional carbon nanofiber (CNF) networks is achieved o...
Controlling the generation of empty cage, endohedral metalofullerenes and carbon nanotubes is an imp...
Graphene and carbon nanotubes exhibit extraordinary and diverse properties, and therefore these nano...