posted on 2017-11-07, 00:00authored byAyan Maity, Avik Das, Debasis Sen, Subhasish Mazumder, Vivek Polshettiwar
We
studied the formation mechanism of dendritic fibrous nanosilica
(DFNS) that involves several intriguing dynamical steps. Through electron
microscopy and real-time small-angle X-ray scattering studies, it
has been demonstrated that the structural evolution of bicontinuous
microemulsion droplets (BMDs) and their subsequent coalescence, yielding
nanoreactor template, is responsible for to the formation of complex
DFNS morphology. The role of cosurfactant has been found to be quite
crucial, which allowed the understanding of this intricate mechanism
involving the complex interplay of self-assembly, dynamics of BMDs
formation, and coalescence. The role of BMDs in formation of DFNS
has not been reported so far and the present work allows a deeper
molecular-level understanding of DFNS formation.