Abstract
The yield collective effect that is generated by each member of the LC phase largely depends on a uniform dispersion of nanoparticles. Evaporation techniques have been used to complete several fluidic-assisted designs. We examine isolated arrays of heterogeneous nanoparticles, taking into account the free entropic volume effect, comb- and brush-effect, electrostatic, and Van der Waals effects. The crystallographic facets of suspended particles and capping agents on their surfaces determine the optimal arrangement of shapes and orientations. It has been discovered that self-assembling activities occur prior to substrate deposition in nanoparticles with both flat and curved geometries. The drying capillaries drive the structures to develop into more aligned and tightly packed, making it easier to bring all of their shapes in suspension together due to dominant attractive interactions. We investigated some noteworthy cases that shed light on the quantitative and significant factors that are involved in constructing well-organized systems.