The thermal properties of two different compositions (Te 12 and 17 at.%) of In–Sb–Te, obtained by met alorganic chemical vapour deposition, were investigated by the 3 x method. The thermal conductivity of these chalcogenides, of interest for phase change memory applications, was found to decrease with increasing tellurium content. Thermal treatment at 480 C of these materials caused an increase of their crystallinity and improved the thermal conductivity. However, this effect was more marked in the Te-poor composition than in the Te-rich one. In addition, the thermal boundary resistance between In–Sb–Te and various capping dielectrics (SiO2, Si3N4 and Al2O3) was measured and it was found to be closely correlated to the interlayer roughness, as indicated by X-ray reflectivity. In this regard, silicon oxide and alumina yielded a smoother and less resistive interface with In–Sb–Te than silicon nitride
Fallica, R., Wiemer, C., Stoycheva, T., Cianci, E., Longo, M., Nguyen, H.t., et al. (2014). Thermal properties of In-Sb-Te films and interfaces for phase change memory devices. MICROELECTRONIC ENGINEERING, 120, 3-8 [10.1016/j.mee.2013.10.021].
Thermal properties of In-Sb-Te films and interfaces for phase change memory devices
Longo, M.;
2014-01-01
Abstract
The thermal properties of two different compositions (Te 12 and 17 at.%) of In–Sb–Te, obtained by met alorganic chemical vapour deposition, were investigated by the 3 x method. The thermal conductivity of these chalcogenides, of interest for phase change memory applications, was found to decrease with increasing tellurium content. Thermal treatment at 480 C of these materials caused an increase of their crystallinity and improved the thermal conductivity. However, this effect was more marked in the Te-poor composition than in the Te-rich one. In addition, the thermal boundary resistance between In–Sb–Te and various capping dielectrics (SiO2, Si3N4 and Al2O3) was measured and it was found to be closely correlated to the interlayer roughness, as indicated by X-ray reflectivity. In this regard, silicon oxide and alumina yielded a smoother and less resistive interface with In–Sb–Te than silicon nitride| File | Dimensione | Formato | |
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