Understanding the relationship between dimensionality and superconductivity has attracted substantial research interest.In this work,we report the effective modulation of superconductivity in GeP_(5)through dimensiona...Understanding the relationship between dimensionality and superconductivity has attracted substantial research interest.In this work,we report the effective modulation of superconductivity in GeP_(5)through dimensionality.The superconducting phase transition temperature improves by~10%as the thickness of GeP_(5)decreases from bulk to~96 nm,behaving as a unique negative relationship between the superconducting phase transition temperatureand thickness.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos.11904001 and 11904004)the Joint Funds of the National Natural Science Foundation of China+1 种基金the Chinese Academy of Sciences Large-Scale Scientific Facility(No.U1932156)Anhui Innovation Project(No.2021LCX007)。
文摘Understanding the relationship between dimensionality and superconductivity has attracted substantial research interest.In this work,we report the effective modulation of superconductivity in GeP_(5)through dimensionality.The superconducting phase transition temperature improves by~10%as the thickness of GeP_(5)decreases from bulk to~96 nm,behaving as a unique negative relationship between the superconducting phase transition temperatureand thickness.
