Thermally and optical induced effects on the structural and electrical parameters of nc-CdS thin films

“…The dcconductivity measurements in chalcogenide glasses provides valuable knowledge about the transport mechanism. To investigate the current transport behaviour temperaturedependent  d measurements are performed in the temperature range 293 K− 363 K for Ge-Se-Sb-Sn thin films which shows typical Arrhenius type of activation [29]:…”

“…7 in the studied temperature range suggests that the conduction in the glassy systemsoccurs via an activated process exhibitingsingle activation energy in this particular temperature range. As the activation energies and temperature range are too high to observe hopping so thermally assisted tunneling has been investigated, which is given as [29]:…”

EFFECT OF Sn INCORPORATION ON STRUCTURAL, PHYSICAL AND ELECTRICAL PROPERTIES OF Ge-Se-Sb-Sn THIN FILMS

“…The dcconductivity measurements in chalcogenide glasses provides valuable knowledge about the transport mechanism. To investigate the current transport behaviour temperaturedependent  d measurements are performed in the temperature range 293 K− 363 K for Ge-Se-Sb-Sn thin films which shows typical Arrhenius type of activation [29]:…”

“…7 in the studied temperature range suggests that the conduction in the glassy systemsoccurs via an activated process exhibitingsingle activation energy in this particular temperature range. As the activation energies and temperature range are too high to observe hopping so thermally assisted tunneling has been investigated, which is given as [29]:…”

EFFECT OF Sn INCORPORATION ON STRUCTURAL, PHYSICAL AND ELECTRICAL PROPERTIES OF Ge-Se-Sb-Sn THIN FILMS

Compositional effects of Ga incorporation on electrical and dielectric parameters in Ge-Se-Sb-Ga thin films

Impact of Bi doping on CdTe thin films: Thermal annealing evolution of physical properties for solar cell absorber layer applications