| dc.description.abstract | Owing to the ease of functionalization, low synthesis-cost and polymorphism,
carbonaceous nanostructures such as carbon globules, nanotubes (CNTs) and graphene sheets
emerged technologically as one of the most important class of multifunctional materials. In this
thesis a wide variety of carbon based nanostructures were synthesized by the simple pyrolysis
method, characterized and their applicabilities are demonstrated. Among the synthesized
materials, metallic particles embedded amorphous carbon globules, CNTs of different
morphologies such as spiralling tendrils, cup and box type bamboos, hollow and filled onions
etc. are the exotic ones. We also demonstrated a way to synthesize nanoscale particles of various
metallic alloys, which can be useful for any structural design in powder metallurgy. These
carbon coated metallic particles, which protect themselves against any environmental corrosion,
are otherwise, difficult to synthesize by any other conventional method. The structure,
morphology, size distribution of the dispersed metallic particles in carbon nanostructures were
investigated and correlated with their optical, magnetic, electronic and chemical properties.
We have demonstrated multifunctionality of our synthesized carbonaceous materials. Our
investigation highlights the non-linear absorption of laser beams in metallic nanoparticles
embedded carbon materials, making them potential candidates for optical limiters. Furthermore,
the dispersion of nano-sized metallic particles inside amorphous carbon matrix proves to be
microwave absorption enhancers, enabling their use as electromagnetic interference (EMI)
shields. In addition, the catalytic activity of most of our samples is excellent, but can be further
improved by controlling the amount of defects via nitrogen doping. The catalytic performance
for reduction of 4-nitrophenol by some selective samples exceeds many of the catalysts reported
earlier. The performance of some of our samples in electronic devices such as in infrared photodetectors
is exceptional. The use of the samples for magnetorheological applications for energy storage
and many other applications cannot be undermined. Hence, our work demonstrates that
our synthesized samples are versatile and truly multifunctional | en_US |
