Effect of oxygen vacancy and Si doping on the electrical properties of Ta2O5 in memristor characteristics

Abstract: The resistive switching behavior in Ta2O5 based memristors is largely controlled by the formation and annihilation of conductive filaments (CFs) that are generated by the migration of oxygen vacancies (OVs). To gain a fundamental insight on the switching characteristics, we have systematically investigated the electrical transport properties of two different Ta2O5 polymorphs ($$\epsilon$$ ϵ -Ta2O5 and λ-Ta2O5), using density functional theory calculations, and associated vacan… Show more

“…This conclusion is also supported by figures 4(c) and (d) because E f is increased in figures 4(c) and (d); this means more available free electrons to increase the electrical conductivity. Also, vacancy-defect material induces additional electronic states in the DFT energy band gap closer to the conduction band edge, which may also contribute to electrical conductivity [30].…”

Atomistic origins of compound semiconductor synthesis with computational neuromorphic engineering

“…This conclusion is also supported by figures 4(c) and (d) because E f is increased in figures 4(c) and (d); this means more available free electrons to increase the electrical conductivity. Also, vacancy-defect material induces additional electronic states in the DFT energy band gap closer to the conduction band edge, which may also contribute to electrical conductivity [30].…”

Atomistic origins of compound semiconductor synthesis with computational neuromorphic engineering

Physical studies of spintronics-based Heusler alloys