Graphitized carbon spheres (GCSs) with varied diameters (500 nm to 4.5μm) and hierarchical surface morphologies were successfully produced on iron-particles coated silicon (100) substrate at 750°C by chemical vapour deposition (CVD). By varying the mass flow rate of the precursor gasses and the method of catalyst coating on silicon (100), GCSs with varied diameters and differing morphologies were obtained. When the mass flow rate of the precursor gasses was altered, the mean diameter of GCSs increases until it reaches an optimum value (~3.1m) suggesting a size-tunability of GCSs. Changing the catalyst coating method on silicon (100) from dip coating to spin coating produces larger-sized GCSs on silicon (100). Field Emission Scanning Electron Microscopy (FE-SEM) images show that GCSs possess a regular and uniform shape with the formation of a hierarchical surface
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