Add to ORKGOne of the most important subjects in nanosciences is to identify and exploit the relationship between size and structural/physical properties of materials and to explore novel material properties at a small-length scale. Scale-down of materials is not only advantageous in realizing miniaturized devices but nanometer-sized materials often exhibit intriguing physical/chemical properties that greatly differ from their bulk counterparts. This dissertation studies self-assembled phase-change nanowires for future nonvolatile electronic memories, mainly focusing on their size-dependent memory switching properties. Owing to the one-dimensional, unique geometry coupled with the small and tunable sizes, bottom-designed nanowires offer great opportun...
Structural defects and their dynamics play an important role in controlling the behavior of phase-ch...
The global demand for data storage and processing has increased exponentially in recent decades. To ...
Phase-change nanowires (NWs) have emerged as critical materials for fast-switching nonvolatile memor...
Phase change memory (PCM) can reversibly transform between the amorphous and crystalline phase withi...
The miniaturization of memory devices has been one of the major driving forces in the exploration of...
The demand for high-density memory in tandem with limitations imposed by the minimum feature size of...
We report on the fabrication and electrical characterization of phase change memory (PCM) devices fo...
The demand for high-density memory in tandem with limitations imposed by the minimum feature size of...
Phase change memory is a promising candidate for the next-generation nonvolatile data storage. Unlik...
The demand for high-density memory in tandem with limitations imposed by the minimum feature size of...
A survey of non-volatile. highly scalable memory devices which utilize dedicated resistive switching...
This chapter is dedicated to the research activities performed on phase change nanowires (NWs) and t...
Nonvolatile memory device using indium selenide nanowire as programmable resistive element was fabri...
This thesis describes nanoscale devices utilizing phase change and two-dimensional materials. The fu...
We investigated the Phase Change Memory (PCM) capabilities of In-doped Sb nanowires (NWs) with diame...
Structural defects and their dynamics play an important role in controlling the behavior of phase-ch...
The global demand for data storage and processing has increased exponentially in recent decades. To ...
Phase-change nanowires (NWs) have emerged as critical materials for fast-switching nonvolatile memor...
Phase change memory (PCM) can reversibly transform between the amorphous and crystalline phase withi...
The miniaturization of memory devices has been one of the major driving forces in the exploration of...
The demand for high-density memory in tandem with limitations imposed by the minimum feature size of...
We report on the fabrication and electrical characterization of phase change memory (PCM) devices fo...
The demand for high-density memory in tandem with limitations imposed by the minimum feature size of...
Phase change memory is a promising candidate for the next-generation nonvolatile data storage. Unlik...
The demand for high-density memory in tandem with limitations imposed by the minimum feature size of...
A survey of non-volatile. highly scalable memory devices which utilize dedicated resistive switching...
This chapter is dedicated to the research activities performed on phase change nanowires (NWs) and t...
Nonvolatile memory device using indium selenide nanowire as programmable resistive element was fabri...
This thesis describes nanoscale devices utilizing phase change and two-dimensional materials. The fu...
We investigated the Phase Change Memory (PCM) capabilities of In-doped Sb nanowires (NWs) with diame...
Structural defects and their dynamics play an important role in controlling the behavior of phase-ch...
The global demand for data storage and processing has increased exponentially in recent decades. To ...
Phase-change nanowires (NWs) have emerged as critical materials for fast-switching nonvolatile memor...