Memristive switching with digital set and multistep analog reset characteristics were demonstrated in tantalum oxide (Ta2O5)-based resistive random access memory (RRAM) devices using Ti and Ag top electrodes (TEs). The Ta2O5-based device with a Ti TE requires a forming process to initiate the switching and exhibits a gradual resistance increase behavior with the sequential increase in voltage in the reset process. The Ta2O5-based device with a Ag TE shows a slightly different switching behavior. The Ta2O5-based device with a Ag TE does not require a forming process and shows a gradual resistance increase behavior after an abrupt reset with a sequential increase in voltage in the reset process. The difference in switching behavior is because...
Al/Ta2O5/Pt RRAM cell was successfully demonstrated with stable bipolar switching. Band alignment fo...
The rapid progress of electronics over the past decades has altered many aspects of our lives fundam...
The increasing demand for high-density data storage leads to an increasing interest in novel memory ...
Tri-state resistive switching characteristics of bilayer resistive random access memory devices base...
The resistive switching behavior of Ta2O5-ZrO2-based metal-insulator-metal devices was studied. Asym...
Resistive switching in metal oxides is believed to be caused by a temperature and electric field dri...
Resistive random access memories (RRAMs) are considered as key enabling components for a variety of ...
The increasing demand on memory from the next-generation technologies facilitated the pathfinding an...
Resistive random access memory (RRAM) devices based on binary transition metal oxides and the applic...
Graduation date: 2012Resistive random access memory (RRAM) is a non-volatile memory technology based...
Interface reactions constitute essential aspects of the switching mechanism in redox-based resistive...
Interface reactions constitute essential aspects of the switching mechanism in redox-based resistive...
To implement artificial neural networks (ANNs) based on memristor devices, it is essential to secure...
A key step in engineering resistive switching is the ability to control the device switching behavio...
This paper addresses the resistive switching behavior in yttrium oxide based resistive random access...
Al/Ta2O5/Pt RRAM cell was successfully demonstrated with stable bipolar switching. Band alignment fo...
The rapid progress of electronics over the past decades has altered many aspects of our lives fundam...
The increasing demand for high-density data storage leads to an increasing interest in novel memory ...
Tri-state resistive switching characteristics of bilayer resistive random access memory devices base...
The resistive switching behavior of Ta2O5-ZrO2-based metal-insulator-metal devices was studied. Asym...
Resistive switching in metal oxides is believed to be caused by a temperature and electric field dri...
Resistive random access memories (RRAMs) are considered as key enabling components for a variety of ...
The increasing demand on memory from the next-generation technologies facilitated the pathfinding an...
Resistive random access memory (RRAM) devices based on binary transition metal oxides and the applic...
Graduation date: 2012Resistive random access memory (RRAM) is a non-volatile memory technology based...
Interface reactions constitute essential aspects of the switching mechanism in redox-based resistive...
Interface reactions constitute essential aspects of the switching mechanism in redox-based resistive...
To implement artificial neural networks (ANNs) based on memristor devices, it is essential to secure...
A key step in engineering resistive switching is the ability to control the device switching behavio...
This paper addresses the resistive switching behavior in yttrium oxide based resistive random access...
Al/Ta2O5/Pt RRAM cell was successfully demonstrated with stable bipolar switching. Band alignment fo...
The rapid progress of electronics over the past decades has altered many aspects of our lives fundam...
The increasing demand for high-density data storage leads to an increasing interest in novel memory ...