Abstract:
Propylene is a staple in the petrochemical industry and used in a very wide range of applications such as packaging, textiles, amplifiers, and automotive parts. This research aims to study the optical properties of doping impregnated propylene by using the gelatinous solution method, which is one of the most important methods and techniques that contributed to the development of the study of semiconductors.
All electronic devices are completely dependent in their work on materials with physical and chemical properties specific to semiconducting materials that represent the properties of insulators at low temperatures and have conductivity when their temperature rises for a certain range Absorption coefficient, power gap, reflection coefficient, dormancy factor, refractive index, and dielectric constant were calculated.
One of the most important results obtained through the study is that the energy gap increase with increasing the deformation ratio of doping and the absorption coefficient decreases with the increase of the denatured ratio of doping so underestimate ratio of doping the aluminum oxide.
Adding, reflection increase with increasing deformation ratio of doping and used in applications requiring that.
