Phase Change Heterostructure Memory with Oxygen-Doped Sb2Te3 Layers for Improved Durability and Reliability through Nano crystalline Island Formation

Dong Hyun Kim, Seung Woo Park, Jun Young Choi, Ho Jin Lee, Jin Suk Oh, Jong Min Joo, Tae Geun Kim

    Research output: Contribution to journalArticlepeer-review

    2 Citations (Scopus)

    Abstract

    Phase-change random access memory represents a notable advancement in nonvolatile memory technology; however, it faces challenges in terms of thermal stability and reliability, hindering its broader application. To mitigate these issues, doping and structural modification techniques such as phase-change heterostructures (PCH) are widely studied. Although doping typically enhances thermal stability, it can adversely affect the switching speed. Structural modifications such as PCH have struggled to sustain stable performance under high atmospheric conditions. In this study, these challenges are addressed by synergizing oxygen-doped Sb2Te3 (OST) with PCH technology. This study presents a novel approach in which OST significantly improves the crystallization temperature, power efficiency, and cyclability. Subsequently, the integration of the PCH technology bolsters the switching speed and further amplifies the device's reliability and endurance by refining the grain size (≈7 nm). The resultant OST-PCH devices exhibit exceptional performance metrics, including a drift coefficient of 0.003 in the RESET state, endurance of ≈4 × 108 cycles, an switching speed of 300 ns, and 67.6 pJ of RESET energy. These findings suggest that the OST-PCH devices show promise for integration into embedded systems, such as those found in automotive applications and Internet of Things devices.

    Original languageEnglish
    Article number2312249
    JournalSmall
    Volume20
    Issue number34
    DOIs
    Publication statusPublished - 2024 Aug 22

    Bibliographical note

    Publisher Copyright:
    © 2024 Wiley-VCH GmbH.

    Keywords

    • grain size
    • oxygen doping
    • phase change heterostructure
    • phase change memory
    • thermal stability

    ASJC Scopus subject areas

    • Biotechnology
    • General Chemistry
    • Biomaterials
    • General Materials Science
    • Engineering (miscellaneous)

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