论文信息 - Crystallization kinetics of Ga Sb Te films for phase change memory

Crystallization kinetics of Ga Sb Te films for phase change memory

Abstract Ga–Sb–Te ternary thin films were prepared by co-sputtering using targets GaSb and Sb 8 Te 2 . Crystallization processes of these films were studied by measuring the temperature-dependent electrical resistance during non-isothermal heating. The activation energy ( E a ), rate factor ( K o ), and kinetics exponent ( n ) were deduced from Kissinger and Ozawa's plots, respectively. The crystallization temperatures ( T x = 108∼319°C) increase with increasing GaSb contents. The activation energy (1.82∼7.52 eV) increases with increasing Ga content until 31.6 at.% then it decreases. The crystallization mechanisms of compositions A∼D (Ga 17∼32 Sb 71∼62 Te 12∼6 ), as evidenced from n values, are nuclei formation and subsequent crystal growth; the nucleation rate decreases with grain growth. While composition E (Ga 38.2 Sb 57.7 Te 4.1 ) reveals an n value lower than 1.5, it implies the one-dimensional crystal growth from the nuclei. The crystallization time of each composition was evaluated using JMA equation using all derived kinetics parameters. Composition C (Ga 26.4 Sb 65.2 Te 8.4 ), showing the shortest crystallization time, is suggested for phase change RAM applications.

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