The review provides a survey of non-volatile, highly scalable memory devices which are based on redox phenomena controlling the resistance of nanoscale memory cells. The classification of the memory effects, the understanding of the underlying mechanisms, and a sketch of the integration efforts will be presented. (C) 2009 Published by Elsevier B.V
This paper presents recent progress in resistive oxide memories and their integration into advanced ...
En raison de leur faible consommation d'énergie, les mémoires non volatiles (MNV) sont En raison de ...
As conventional memory concepts are approaching their physical scaling limits, novel memory device c...
This review article introduces resistive switching processes that are being considered for nanoelect...
In this review the different concepts of nanoscale resistive switching memory devices are described ...
This review briefly describes the development of molecular electronics in the application of non-vol...
Resistive Switching Memories (RRAM) are one of the most promising candidates for future memory devic...
Memristive devices have been a hot topic in nanoelectronics for the last two decades in both academi...
Emulation of neural networks by redox-based Resistive Random Access Memories (ReRAMs) with component...
This paper addresses the two main resistive switching (RS) memory technologies: phase-change memory ...
The steadily growing market for consumer electronics and the rapid proliferationof mobile devices su...
Use of solid state ionic conductors the so-called Solid Electrolytes has brought new impetus to the ...
International audienceThe power and reliability issues of today’s memories (static and dynamic RAMs)...
The steadily growing market for consumer electronics and the rapid proliferation of mobile devices s...
We study the resistive switching (RS) mechanism as way to obtain multi-level memory cell (MLC) devi...
This paper presents recent progress in resistive oxide memories and their integration into advanced ...
En raison de leur faible consommation d'énergie, les mémoires non volatiles (MNV) sont En raison de ...
As conventional memory concepts are approaching their physical scaling limits, novel memory device c...
This review article introduces resistive switching processes that are being considered for nanoelect...
In this review the different concepts of nanoscale resistive switching memory devices are described ...
This review briefly describes the development of molecular electronics in the application of non-vol...
Resistive Switching Memories (RRAM) are one of the most promising candidates for future memory devic...
Memristive devices have been a hot topic in nanoelectronics for the last two decades in both academi...
Emulation of neural networks by redox-based Resistive Random Access Memories (ReRAMs) with component...
This paper addresses the two main resistive switching (RS) memory technologies: phase-change memory ...
The steadily growing market for consumer electronics and the rapid proliferationof mobile devices su...
Use of solid state ionic conductors the so-called Solid Electrolytes has brought new impetus to the ...
International audienceThe power and reliability issues of today’s memories (static and dynamic RAMs)...
The steadily growing market for consumer electronics and the rapid proliferation of mobile devices s...
We study the resistive switching (RS) mechanism as way to obtain multi-level memory cell (MLC) devi...
This paper presents recent progress in resistive oxide memories and their integration into advanced ...
En raison de leur faible consommation d'énergie, les mémoires non volatiles (MNV) sont En raison de ...
As conventional memory concepts are approaching their physical scaling limits, novel memory device c...
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