The
effect of sulfur on the catalytic nucleation and growth of
single-wall carbon nanotubes (SWCNTs) from an iron catalyst was investigated
in situ by transmission electron microscopy (TEM). The catalyst precursor
of ferrocene and growth promoter of sulfur were selectively loaded
inside of the hollow core of multiwall CNTs with open ends, which
served as a nanoreactor powered by applying a voltage inside of the
chamber of a TEM. It was found that a SWCNT nucleated and grew perpendicularly
from a region of the catalyst nanoparticle surface, instead of the
normal tangential growth that occurs with no sulfur addition. Our
in situ TEM observation combined with CVD growth studies suggests
that sulfur functions to promote the nucleation and growth of SWCNTs
by forming inhomogeneous local active sites and modifying the interface
bonding between catalysts and precipitated graphitic layers, so that
carbon caps can be lifted off from the catalyst particle.