This work investigates the transition from digital to gradual or analog resistive switching in yttrium oxide-based resistive random-access memory devices. It is shown that this transition is determined by the amount of oxygen in the functional layer. A homogeneous reduction of the oxygen content not only reduces the electroforming voltage, allowing for forming-free devices, but also decreases the voltage operation window of switching, thereby reducing intra-device variability. The most important effect as the dielectric becomes substoichiometric by oxygen engineering is that more intermediate (quantized) conduction states are accessible. A key factor for this reproducibly controllable behavior is the reduced local heat dissipation in the fi...
The stochastic nature of conductive filament formation and dissolution always leads to large fluctua...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
The rapid progress of electronics over the past decades has altered many aspects of our lives fundam...
This work investigates the transition from digital to gradual or analog resistive switching in yttri...
This paper addresses the resistive switching behavior in yttrium oxide based resistive random access...
Hafnium oxide (HfOx)-based memristive devices have tremendous potential as nonvolatile resistive ran...
Low-frequency noise in Y2O3-based resistive random-access memory devices with analog switching is st...
A unified microscopic principle is proposed to clarify resistive switching behaviors of transition m...
Resistive random-access memory (RRAM) devices have attracted broad interest as promising building bl...
Hafnium oxide (HfOx)‐based memristive devices have tremendous potential as nonvolatile resistive ran...
esistive random access memory (RRAM) has been attracting attention for high-density, high-speed, and...
Resistive random access memory (RRAM) devices based on binary transition metal oxides and the applic...
With the explosive growth of digital data in the era of the Internet of Things (IoT), fast and scala...
Memristors have been proposed for a number of applications from nonvolatile memory to neuromorphic ...
Resistive random access memory (RRAM) devices represent promising candidates for emerging non-volati...
The stochastic nature of conductive filament formation and dissolution always leads to large fluctua...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
The rapid progress of electronics over the past decades has altered many aspects of our lives fundam...
This work investigates the transition from digital to gradual or analog resistive switching in yttri...
This paper addresses the resistive switching behavior in yttrium oxide based resistive random access...
Hafnium oxide (HfOx)-based memristive devices have tremendous potential as nonvolatile resistive ran...
Low-frequency noise in Y2O3-based resistive random-access memory devices with analog switching is st...
A unified microscopic principle is proposed to clarify resistive switching behaviors of transition m...
Resistive random-access memory (RRAM) devices have attracted broad interest as promising building bl...
Hafnium oxide (HfOx)‐based memristive devices have tremendous potential as nonvolatile resistive ran...
esistive random access memory (RRAM) has been attracting attention for high-density, high-speed, and...
Resistive random access memory (RRAM) devices based on binary transition metal oxides and the applic...
With the explosive growth of digital data in the era of the Internet of Things (IoT), fast and scala...
Memristors have been proposed for a number of applications from nonvolatile memory to neuromorphic ...
Resistive random access memory (RRAM) devices represent promising candidates for emerging non-volati...
The stochastic nature of conductive filament formation and dissolution always leads to large fluctua...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
The rapid progress of electronics over the past decades has altered many aspects of our lives fundam...