The switching uniformity and reliability of the TaOx based resistive random access memory (RRAM) device were investigated with varying nitrogen doping concentration. The nitrogen doped samples shows excellent electrical and reliability characteristics such as small switching variability for 3-bit multilevel per cell (MLC), low power operation and good retention properties. Compared with control sample, improved device characteristics of nitrogen doped device can be explained by nitrogen induced filament confinement. © The Author(s) 2015. Published by ECS. This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 License (CC BY
Graduation date: 2012Resistive random access memory (RRAM) is a non-volatile memory technology based...
Abstract — Incorporation of nitrogen as an oxygen-confining layer in the resistance switching reacti...
Resistive random-access memory (RRAM) with the ability to store and process information has been con...
Resistive random–access memory (RRAM) for neuromorphic systems has received significant attention be...
MasterResistive random Access memory (RRAM) is one of the most attractive memory device because of i...
In order to obtain reliable multilevel cell (MLC) characteristics, resistance controllability betwee...
The role of nitrogen doping on the stability and memory window of resistive state switching in N-dop...
The role of nitrogen doping on the stability and memory window of resistive state switching in N-dop...
International audienceIn order to obtain reliable multilevel cell (MLC) characteristics, resistance ...
Memory unit, especially the non-volatile memory (NVM), is an indispensable component in a high perfo...
An atomistic Monte-Carlo simulator is developed for TaOx-based resistive switching random access mem...
In this letter, we demonstrate the differing influences of a nitrogen buffering effect in both the s...
For the passive crossbar integration of redox-based resistive RAM (ReRAM), understanding the nonline...
We demonstrate the extra influence of a nitrogen buffering effect in the top indium-tin-oxide (ITO) ...
Abstract A nitridation treatment technology with a urea/ammonia complex nitrogen source improved res...
Graduation date: 2012Resistive random access memory (RRAM) is a non-volatile memory technology based...
Abstract — Incorporation of nitrogen as an oxygen-confining layer in the resistance switching reacti...
Resistive random-access memory (RRAM) with the ability to store and process information has been con...
Resistive random–access memory (RRAM) for neuromorphic systems has received significant attention be...
MasterResistive random Access memory (RRAM) is one of the most attractive memory device because of i...
In order to obtain reliable multilevel cell (MLC) characteristics, resistance controllability betwee...
The role of nitrogen doping on the stability and memory window of resistive state switching in N-dop...
The role of nitrogen doping on the stability and memory window of resistive state switching in N-dop...
International audienceIn order to obtain reliable multilevel cell (MLC) characteristics, resistance ...
Memory unit, especially the non-volatile memory (NVM), is an indispensable component in a high perfo...
An atomistic Monte-Carlo simulator is developed for TaOx-based resistive switching random access mem...
In this letter, we demonstrate the differing influences of a nitrogen buffering effect in both the s...
For the passive crossbar integration of redox-based resistive RAM (ReRAM), understanding the nonline...
We demonstrate the extra influence of a nitrogen buffering effect in the top indium-tin-oxide (ITO) ...
Abstract A nitridation treatment technology with a urea/ammonia complex nitrogen source improved res...
Graduation date: 2012Resistive random access memory (RRAM) is a non-volatile memory technology based...
Abstract — Incorporation of nitrogen as an oxygen-confining layer in the resistance switching reacti...
Resistive random-access memory (RRAM) with the ability to store and process information has been con...