Forces driving amalgamation of nanoparticles and particles in solution

Abstract

For developing new areas of research in physics, chemistry, environment and mathematics, it is incumbent to study forces driving the amalgamation of nanoparticles and particles in solution. In solution, observing the live dynamics of colloidal entities is not an intriguing approach to study the forces driving their amalgamations. Different microscopic images of nanoparticles and particles can enable one to study the driven forces in amalgamation. In amalgamation of colloidal entities, forces of minimum two references are required. On development, a nanoparticle or particle not only conceives the force exerted due to the medium dynamics, but it also monitors the force originated due to its own features. The net force driving the amalgamation of a particle is resulted from at least two forces. During amalgamation, the net force exerted to the particle successively remains in mute, alert and functioning modes. The energy behavior successively remains in functioning, alert and mute modes. In amalgamation of geometric shapes, exerting force at the electron level remains in an even manner, which is not the case in amalgamation of distorted particles. On amalgamation of particles, agglomerates are formed, where force of mainly one reference influences. When amalgamating in the solution, nanoparticles and particles are the best candidates to trace the nature of forces, so they can also interpret the associated energy behaviors.