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Shuai WeiRWTH Aachen UniversityTuning The Kinetics In Phase-change Materials Angell International Symposium on Molten Salt, Ionic & Glass-forming Liquids: Processing and Sustainability (7th Intl. Symp. on Molten Salt, Ionic & Glass-forming Liquids: Processing and Sustainability). Back to Plenary Lectures » |
Abstract:The phase-change materials (PCMs) such as Ge-Sb-Te alloys can be reversibly switched between amorphous and crystalline states on a timescale of nanoseconds. The phase switch provides the material basis for next-generation non-volatile phase-change memory devices. I show experimental studies of PCM kinetics spanning over 1000 K in temperature and 16 orders of magnitude in timescales. In the (supercooled) liquid states, this class of materials exhibits a variety of anomalous behaviors in thermodynamics and kinetics, such as heat capacity and density maxima, dynamic crossovers, and a breakdown of the Stokes-Einstein relations. These anomalies are related to a high- to low-density and metal-to-semiconductor liquid-liquid transition hidden below the melting temperature obscured by fast crystallization. I will bring the idea of tuning this transition through adjusting metallicities to attain desired switching kinetics for faster and more reliable phase-change memory applications. References:1.Wei, S., Evenson, Z., Stolpe, M., Lucas, P. & Angell, C. A. Breakdown of the Stokes-Einstein relation above the melting temperature in a liquid phase-change material. Science Advances 4, eaat8632 (2018). |
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