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(Electrical Nanoparticles) Coating Agent or Stabilizer in Nanoelectronics

Afshin Rashid

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Abstract

Note: Due to the specific surface area and high surface energy, the coating or stabilizing agent of the produced nanoparticles stick together and form a mass. This phenomenon leads to the loss of properties resulting from the small size of these particles.To prevent the accumulation of nanoparticles in the synthesis stage, stabilizers are used. Usually, two types of electrostatic and spatial drift methods are used to stabilize nanoparticles. In this model, two methods of stabilizing particles are used. In the first method, ions are used to stabilize nanoparticles. These ions are absorbed into the particles and form an electrically charged layer around the nanoparticles, and as a result, the Raman covalent drift becomes from the accumulation of particles. In the second method, macromolecules are used to stabilize nanoparticles. Macromolecules stick to the surface of the particles and occupy the space around the nanoparticle. As the particles get closer to each other, these molecules become entangled and become Raman from the particles sticking together. It is from the interactions between nano layers and fat as a function of nanoparticle structure, morphology and surface electrochemistry. This broad target consists of a number of nanomolecules obtained from coarse-grained molecular simulations.

Topics & Concepts

Stabilizer (aeronautics)NanoelectronicsNanoparticleCoatingMaterials scienceNanotechnologyEngineeringMechanical engineeringElectrophoretic Deposition in Materials ScienceMaterial Properties and Applications