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Strong room-temperature ferromagnetism and magnetocaloric effect in anisotropic two-dimensional layered chromium indium telluride

Strong room-temperature ferromagnetism and magnetocaloric effect in anisotropic two-dimensional layered chromium indium telluride

    摘要
  • 摘要: ly Two-dimensional (2D) layered ferromagnets offer exciting opportunities for studying magnetic phenomena and developing advanced spintronic devices. In this study, we experimentally present a 2D chromium indium telluride (Cr6In2Te12, CIT) that exhibits robust room-temperature ferromagnetism and remarkable magnetic properties. CIT demonstrates a high Curie temperature of 320 K, record-high roomtemperature saturation magnetization (~52.3 emu/g), and a strong magnetocaloric effect. In addition, CIT displays complex magnetocrystalline anisotropy with multiple easy axes and signatures of an abnormal phase transition, characterized by anisotropic anomalies in field- and temperature-dependent magnetization curves. CIT also shows anisotropic magnetic interactions and critical exponents consistent with a mean-field model. Moreover, few-layer CIT retains clear room-temperature ferromagnetism. These exceptional properties position CIT as a promising 2D high-TC ferromagnet for multidisciplinary applications, particularly in high-performance spintronic devices.

     

    Abstract: ly Two-dimensional (2D) layered ferromagnets offer exciting opportunities for studying magnetic phenomena and developing advanced spintronic devices. In this study, we experimentally present a 2D chromium indium telluride (Cr6In2Te12, CIT) that exhibits robust room-temperature ferromagnetism and remarkable magnetic properties. CIT demonstrates a high Curie temperature of 320 K, record-high roomtemperature saturation magnetization (~52.3 emu/g), and a strong magnetocaloric effect. In addition, CIT displays complex magnetocrystalline anisotropy with multiple easy axes and signatures of an abnormal phase transition, characterized by anisotropic anomalies in field- and temperature-dependent magnetization curves. CIT also shows anisotropic magnetic interactions and critical exponents consistent with a mean-field model. Moreover, few-layer CIT retains clear room-temperature ferromagnetism. These exceptional properties position CIT as a promising 2D high-TC ferromagnet for multidisciplinary applications, particularly in high-performance spintronic devices.

     

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