Inactive  electronic  nanoparticles _

Researcher  and author: Dr.   (   Afshin Rashid)




Note:  Many methods have been developed for the production of electrical nanoparticles or electronic nanoparticle structures, which include vapor, liquid and solid state processes. In general, chemical reactions to produce nanoparticles can take place in  any of the solid, liquid and gas states. 

The structural change in nanoparticles is a prefix that indicates the minus ninth power of ten, that is, one billionth. Here it means that nanometers are used for length. The behavior of particles of  one nanometer in length corresponds to one billionth of 1   meter, one millionth of 1  millimeter, or one thousandth  of  1 micrometer. The common method is toproduce materials in a solid form. By crushing the particles, their contact surface is increased, and further, in order to increase the penetration of atoms and ions, this mixture is increased at high temperatures. In chemistry, it refers to substances with which chemical reactions begin, reactants, and substances to which they react during the reaction (reactants). it is transformed, it is called a product. Reactants can be solid, liquid or gas. In addition, reactants are either an independent element or they can be in the form of multi-component compounds. Multicomponent compounds are usually called precursors.








Molecular junctions, which are usually created by sticking molecules to metal electrodes, are able to reduce the dimensions of molecular devices. These connections have a high potential to behave and perform similar to common electronic components. These molecular tools can be a good substitute or supplement for common technologies and create new capabilities in these technologies.



Conclusion :

Nanoparticles are used as components of many applications in different fields. These functions include electronic, magnetic, optical and electrical materials.

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics