Abstract:
Catalytic reduction of aromatic nitro compounds to amines via homogeneous and
heterogeneous approaches was performed. For homogeneous catalysis the combination of
commercially available Co(acac)2 and dpephos ligand (dpephos = bis[(2-
diphenylphosphino)phenyl]ether) was effectively employed showing the full conversion of
the substrate at room temperature using PhSiH3 and HBPin as reductants. For heterogeneous
catalysis, two approaches were used, such as generation of free cobalt nanoparticles from
Co(OAc)2 and preparation of three composites derived from commercially available
Co(OAc)2 and CoCl2 and surface modified silica. The application of free cobalt nanoparticles
showed reduction of nitro compounds with full conversion at room temperature within 20 h.
The synthesized cobalt composite materials were subjected to reduction of 2-nitrophenol with
NaBH4 in water. Comparative kinetic studies indicated that the composite catalyst derived
from Co(OAc)2 has the highest catalytic activity in reduction of 2-nitrophenol with the rate
constant of 6.72x10-2 min-1. The transition from homogenous catalysis to heterogeneous
approach for an effective reduction of aromatic nitro compounds to amines as well as removal
of nitro compounds from aqueous solutions were articulated in the present thesis work.