A small amount of addition of impurities determines the dopant concentration and electrical conductivities of the materials. This method has been successfully proved for the semiconductor physics industry. Finally, we conclude with a brief comparative study between electrical and conventional doping methods.ĭoping plays a crucial role in determining physical characteristics and their applications of various organic or inorganic materials, especially for semiconductors. Furthermore, we describe the methods of electrical doping. Then we figure out importance of electrical doping and its importance.
Thus, we will review some experimental works at the molecular level along with we review a variety of research works that are performed based on electrical doping. Secondly, we will discuss electrical doping at the molecular level. In this article, we first briefly review the historical roadmap of electrical doping. Significant experimental and theoretical efforts are demonstrated to study the characteristics of electrical doping during the past few decades. This doping process reduces the risk of high temperature, contamination of foreign particles. Electrical doping is a promising strategy that is used for effective tuning of the charge populations, electronic properties, and transmission properties. Many strategies have been discovered for controlling doping in the area of semiconductor physics during the past few decades. Doping is the key feature in semiconductor device fabrication.
0 kommentar(er)
