High Reliability and Fast‐Speed Phase‐Change Memory Based on Sb70Se30/SiO2 Multilayer Thin Films

Zhang, Dan; Hu, Yifeng; You, Haipeng; Zhu, Xiaoqin; Sun, Yuemei; Zou, Hua; Zheng, Yan

doi:10.1155/2018/9693015

Cited by 3 publications

(2 citation statements)

References 33 publications

(33 reference statements)

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“…26 Higher annealing temperatures expose the grains to compressive stress, reduce bond lengths and increase bond energies, indicating stronger interatomic forces and enhanced stability. 27 Due to the electrode-film interface influenced by the induced stress during the phase change process, 28 30 and it will reduce the grain size and produce more grain boundaries. More grain boundaries have been reported to affect carrier transport, increasing the crystalline resistivity and lowing power consumption in RESET.…”

Section: Resultsmentioning

confidence: 99%

Design of Multilevel Storage Medium through Sb₂Te₃/Ga₂Sb₃ Phase-Change Heterostructure

Gu¹,

Wu²,

Zhou³

et al. 2023

ECS J. Solid State Sci. Technol.

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Phase-change heterojunction Sb2Te3/Ga2Sb3 thin films with different thickness ratios and periods were designed and prepared by the magnetron sputtering technique. The multi-level resistance states of phase-change heterojunction Sb2Te3/Ga2Sb3 film were investigated from the perspective of material and device. As for the constant thickness ratio, both the phase transition temperature and electrical resistance increase with the decrease of periods. In particular, the heterojunction [Sb2Te3(7nm)/Ga2Sb3(3nm)]3 film experiences the twice resistance jumps at 208 and 290℃, respectively, exhibiting the obvious triple-resistance states. The phase structure and vibrational modes of [Sb2Te3(7nm)/Ga2Sb3(3nm)]3 film during the different crystallization stages were observed by the structural characterization.

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Section: Resultsmentioning

confidence: 99%

Design of Multilevel Storage Medium through Sb₂Te₃/Ga₂Sb₃ Phase-Change Heterostructure

Gu¹,

Wu²,

Zhou³

et al. 2023

ECS J. Solid State Sci. Technol.

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“…8 In present, the most widely used phase change material is Ge 2 Sb 2 Te 5 (GST) because of its commercial application in optical storage. 9 However, the thermal stability of Ge 2 Sb 2 Te 5 is relatively poor and the RESET power consumption is too high to meet the requirement for high-density storage. 10 Therefore, it is necessary to develop new phase change materials.…”

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confidence: 99%

Crystallization Properties of Mg₃₅Sb₆₅/Sb Nanocomposite Multilayer Films for Phase Change Memory Application

Sun

et al. 2019

ECS J. Solid State Sci. Technol.

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The phase transition properties of Mg35Sb65/Sb multilayer thin films were studied, including the crystallization mechanism, surface morphology, atomic bonding mode and adhesion strength. With the increase of the thickness of Mg35Sb65 interlayers, Mg35Sb65/Sb thin film had better thermal stability and lower electrical conductivity. The growth-dominated crystallization mechanism made Mg35Sb65/Sb have ultra-fast phase change speed. The subtle change on surface morphology was ascribed to the grain growth and interface stress during crystallization. The scratch test revealed the adhesion strength contrast before and after crystallization. This work showed that Mg35Sb65/Sb multilayer film was a potential material with fast speed and good thermal stability for phase change memory application.

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Crystallization kinetics of Sb70Se30 thin films for phase change memories under the non-isothermal conditions

Wang,

Chen

2023

Journal of Crystal Growth

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High Reliability and Fast‐Speed Phase‐Change Memory Based on Sb₇₀Se₃₀/SiO₂ Multilayer Thin Films

Cited by 3 publications

References 33 publications

Design of Multilevel Storage Medium through Sb₂Te₃/Ga₂Sb₃ Phase-Change Heterostructure

Design of Multilevel Storage Medium through Sb₂Te₃/Ga₂Sb₃ Phase-Change Heterostructure

Crystallization Properties of Mg₃₅Sb₆₅/Sb Nanocomposite Multilayer Films for Phase Change Memory Application

Crystallization kinetics of Sb70Se30 thin films for phase change memories under the non-isothermal conditions

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High Reliability and Fast‐Speed Phase‐Change Memory Based on Sb70Se30/SiO2 Multilayer Thin Films

Cited by 3 publications

References 33 publications

Design of Multilevel Storage Medium through Sb2Te3/Ga2Sb3 Phase-Change Heterostructure

Design of Multilevel Storage Medium through Sb2Te3/Ga2Sb3 Phase-Change Heterostructure

Crystallization Properties of Mg35Sb65/Sb Nanocomposite Multilayer Films for Phase Change Memory Application

Crystallization kinetics of Sb70Se30 thin films for phase change memories under the non-isothermal conditions

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High Reliability and Fast‐Speed Phase‐Change Memory Based on Sb₇₀Se₃₀/SiO₂ Multilayer Thin Films

Design of Multilevel Storage Medium through Sb₂Te₃/Ga₂Sb₃ Phase-Change Heterostructure

Design of Multilevel Storage Medium through Sb₂Te₃/Ga₂Sb₃ Phase-Change Heterostructure

Crystallization Properties of Mg₃₅Sb₆₅/Sb Nanocomposite Multilayer Films for Phase Change Memory Application