Add to ORKGeditorial reviewedPhase change memory (PCM) technology is considered to be among the most promising alternatives to conventional technologies in embedded memories [1]. To allow operation at relatively high temperatures in embedded applications, it is crucial to improve the stability of the amorphous phase. Carbon and nitrogen doping have been shown to significantly increase the crystallization temperature [1-3]. Moreover, the high RESET current requirement [2], which is a limit to the scalability of GeTe and GST, can be reduced by the incorporation of a dopant element [4]. In this presentation we focus on correlating experimental results and ab initio simulations to understand the effect of C and N incorporation in GeTe and GST PCM device...
Ge2Sb2Te5 (GST) has been widely used in phase-change random-access memory (PcRAM) owing to its high-...
Phase Change Random Access Memories (PCRA) are recognized as very promising candidate for the next-g...
In this paper we present a study of Phase-Change non-volatile Memory (PCM) devices integrating carbo...
editorial reviewedDoping Chalcogenide Phase Change Materials, such as Ge2Sb2Te5 and GeTe used in non...
peer reviewedDoping chalcogenide phase change materials was shown to improve the stability of the am...
This paper investigates material and electrical propertiesof a new chalcogenide alloy for Phase-Chan...
This paper investigates Carbon-doped GeTe (GeTeC) as novel material for Phase-Change Memories (PCM)....
Herein, we study the crystallization of undoped and nitrogen doped amorphous GeTe thin films (slight...
Data recording with Phase Change Materials is a much studied topic as the writing/erasing characteri...
International audienceCarbon-doped GeTe is a promising material for use in phase change memories sin...
Phase Change Memories (PCM) are one of the best candidates for the next generation of non volatile m...
ABSTRACT: Phase-change materials are highly promising for next-generation nonvolatile data storage t...
Within this Ph.D. thesis work new topics in the field of Non-Volatile Memories technologies have bee...
Data recording with Phase Change Materials is a much studied topic as the writing/erasing characteri...
Phase-change materials (PCM) such as GeTe and Ge-Sb-Te alloys are potential candidates for non-volat...
Ge2Sb2Te5 (GST) has been widely used in phase-change random-access memory (PcRAM) owing to its high-...
Phase Change Random Access Memories (PCRA) are recognized as very promising candidate for the next-g...
In this paper we present a study of Phase-Change non-volatile Memory (PCM) devices integrating carbo...
editorial reviewedDoping Chalcogenide Phase Change Materials, such as Ge2Sb2Te5 and GeTe used in non...
peer reviewedDoping chalcogenide phase change materials was shown to improve the stability of the am...
This paper investigates material and electrical propertiesof a new chalcogenide alloy for Phase-Chan...
This paper investigates Carbon-doped GeTe (GeTeC) as novel material for Phase-Change Memories (PCM)....
Herein, we study the crystallization of undoped and nitrogen doped amorphous GeTe thin films (slight...
Data recording with Phase Change Materials is a much studied topic as the writing/erasing characteri...
International audienceCarbon-doped GeTe is a promising material for use in phase change memories sin...
Phase Change Memories (PCM) are one of the best candidates for the next generation of non volatile m...
ABSTRACT: Phase-change materials are highly promising for next-generation nonvolatile data storage t...
Within this Ph.D. thesis work new topics in the field of Non-Volatile Memories technologies have bee...
Data recording with Phase Change Materials is a much studied topic as the writing/erasing characteri...
Phase-change materials (PCM) such as GeTe and Ge-Sb-Te alloys are potential candidates for non-volat...
Ge2Sb2Te5 (GST) has been widely used in phase-change random-access memory (PcRAM) owing to its high-...
Phase Change Random Access Memories (PCRA) are recognized as very promising candidate for the next-g...
In this paper we present a study of Phase-Change non-volatile Memory (PCM) devices integrating carbo...