Invariance of Meyer-Neldel compensation rule in thermally activated d.c. and a.c. conduction for as-prepared and aged glassy Selenium and As2Se3 glass

“…The term E MN is referred to as Meyer–Neldel energy. The Meyer–Neldel Rule (MNR), an established principle in the domain of materials science, finds application across diverse substances, notably chalcogenide glasses, 46 and various semiconductor classifications. Through the utilization of the gradients inherent in these linear representations, the determination of the activation energy values ( E MN ) was achieved via linear regression analysis of the plotted data, as demonstrated in Fig.…”

Exploring dielectric and AC conduction characteristics in elemental selenium glass modified with silver halides

“…The term E MN is referred to as Meyer–Neldel energy. The Meyer–Neldel Rule (MNR), an established principle in the domain of materials science, finds application across diverse substances, notably chalcogenide glasses, 46 and various semiconductor classifications. Through the utilization of the gradients inherent in these linear representations, the determination of the activation energy values ( E MN ) was achieved via linear regression analysis of the plotted data, as demonstrated in Fig.…”

Exploring dielectric and AC conduction characteristics in elemental selenium glass modified with silver halides

Perspectives of dielectric and A.C. conductivity behavior of MWCNT and graphene-doped amorphous Selenium thin films

Highly conducting nanophases of Ag2S–Se-Ge chalcogenide glassy systems: Explanations via computational descriptions