Scaling of complementary metal-oxide-semiconductor technology nodes using conventional semiconducting materials is slowing down.The development of semiconductor technology with new materials and new concepts has becom...Scaling of complementary metal-oxide-semiconductor technology nodes using conventional semiconducting materials is slowing down.The development of semiconductor technology with new materials and new concepts has become an important focus of scientific and industrial research.In recent years,emerging ambipolar two-dimensional(2D)materials-based reconfigurable devices have shown their potential in high-integration,multifunctional circuits and have begun to attract the attention of researchers.Here,we summarize the latest progress in the field concerning ambipolar 2D materials-based reconfigurable devices.Firstly,we introduce the basic properties and preparation methods of ambipolar 2D materials.Secondly,we discuss the latest applications of reconfigurable devices based on ambipolar 2D materials.Furthermore,we also introduce the current research status of ambipolar material devices in large-scale integration.Finally,we analyze the challenges faced during the development of ambipolar 2D materials-based reconfigurable devices and provide prospects for their future development.展开更多
基金supported by the National Natural Science Foundation of China(22175184 and 22105207)the CAS Project for Young Scientists in Basic Research(YSBR-053)+1 种基金the Strategic Priority Research Programme of the Chinese Academy of Sciences(XDB0520202)the CAS Project for Young Scientists in Interdisciplinary Research.
文摘Scaling of complementary metal-oxide-semiconductor technology nodes using conventional semiconducting materials is slowing down.The development of semiconductor technology with new materials and new concepts has become an important focus of scientific and industrial research.In recent years,emerging ambipolar two-dimensional(2D)materials-based reconfigurable devices have shown their potential in high-integration,multifunctional circuits and have begun to attract the attention of researchers.Here,we summarize the latest progress in the field concerning ambipolar 2D materials-based reconfigurable devices.Firstly,we introduce the basic properties and preparation methods of ambipolar 2D materials.Secondly,we discuss the latest applications of reconfigurable devices based on ambipolar 2D materials.Furthermore,we also introduce the current research status of ambipolar material devices in large-scale integration.Finally,we analyze the challenges faced during the development of ambipolar 2D materials-based reconfigurable devices and provide prospects for their future development.
