Conductive bridge random access memory (CBRAM) is a possible replacement for static field‐programmable gate arrays (FPGAs) based on random‐access memory. Ge2Sb2Te5 (GST) is used in CBRAMs as a solid electrolyte due to its high diffusion properties of active ions and scalability to obtain high‐density memory devices. Here, the trade‐off between high memory window and uniformity of CBRAM based on GST is solved by introducing N atoms into the SE. Nitrogen‐incorporated GST film (N‐GST) is proposed as a replacement for the current GST‐based CBRAMs with improved performance and better opportunities for conventional FPGA technologies. A bidirectional polarity‐dependent characteristic with high ION/IOFF ratio and satisfactory operation voltage is a...
Phase Change Random Access Memory (PCRAM) has shown to have the most potential over other types of e...
In this paper, we investigated the effects of inserting an N-doped GeSbTe buffer layer on a Cu/Al2O3...
Electron storage memory devices are approaching the minimum dimensions that are physically possible ...
This study is focused on Conductive Bridging Random Access Memory (CBRAM) devices based on chalcogen...
The global datasphere is predicted to grow from 33 zettabytes (ZB) in 2018 to 175 ZB by 2025. Ever i...
Among emerging memory technologies that rely on the bistable change of a resistor, the conductive br...
CBRAM nano-ionic devices are emerging as a competitive technology solution for transistor free memor...
In this project, an overview of the field of both conventional and emerging memory technologies is p...
Les mémoires non-volatiles sont devenues récemment un moteur clé de la croissance du secteur des sem...
<p>A compositionally matched superlattice-like (SLL) structure comprised of Ge2Sb2Te5 (GST) and nitr...
Recently, Conductive-bridge random access memory (CBRAM) cell is considered as a promising candidate...
This paper presents a study on the electrical characteristics of conductive-based resistive random-a...
In this paper, we investigated the effects of inserting an N-doped GeSbTe buffer layer on a Cu/Al2O3...
This study investigates a low degradation metal-ion conductive bridge RAM (CBRAM) structure. The str...
Much excitement has been generated over the potential uses of chalcogenide glasses and other materi...
Phase Change Random Access Memory (PCRAM) has shown to have the most potential over other types of e...
In this paper, we investigated the effects of inserting an N-doped GeSbTe buffer layer on a Cu/Al2O3...
Electron storage memory devices are approaching the minimum dimensions that are physically possible ...
This study is focused on Conductive Bridging Random Access Memory (CBRAM) devices based on chalcogen...
The global datasphere is predicted to grow from 33 zettabytes (ZB) in 2018 to 175 ZB by 2025. Ever i...
Among emerging memory technologies that rely on the bistable change of a resistor, the conductive br...
CBRAM nano-ionic devices are emerging as a competitive technology solution for transistor free memor...
In this project, an overview of the field of both conventional and emerging memory technologies is p...
Les mémoires non-volatiles sont devenues récemment un moteur clé de la croissance du secteur des sem...
<p>A compositionally matched superlattice-like (SLL) structure comprised of Ge2Sb2Te5 (GST) and nitr...
Recently, Conductive-bridge random access memory (CBRAM) cell is considered as a promising candidate...
This paper presents a study on the electrical characteristics of conductive-based resistive random-a...
In this paper, we investigated the effects of inserting an N-doped GeSbTe buffer layer on a Cu/Al2O3...
This study investigates a low degradation metal-ion conductive bridge RAM (CBRAM) structure. The str...
Much excitement has been generated over the potential uses of chalcogenide glasses and other materi...
Phase Change Random Access Memory (PCRAM) has shown to have the most potential over other types of e...
In this paper, we investigated the effects of inserting an N-doped GeSbTe buffer layer on a Cu/Al2O3...
Electron storage memory devices are approaching the minimum dimensions that are physically possible ...