期刊
ADVANCED FUNCTIONAL MATERIALS
卷 30, 期 45, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202004609
关键词
artificial synapses; In2Se3; ferroelectricity; field-effect transistors; resistive switching
类别
资金
- Agency for Science, Technology and Research (A*STAR) under its A-star AME programmatic funds on Scalable Growth of Ultrathin Ferroelectric Materials for Memory Technologies [A1983c0035]
Recently, 2D ferroelectrics have attracted extensive interest as a competitive platform for implementing future generation functional electronics, including digital memory and brain-inspired computing circuits. Fulfilling their potential requires achieving the interplay between ferroelectricity and electronic characteristics on the device operation level, which is currently lacking since most studies are focused on the verification of ferroelectricity from different 2D materials. Here, by leveraging the ferroelectricity and semiconducting properties of alpha-In2Se3, ferroelectric semiconductor field-effect transistors (FeSFETs) are fabricated and their potential as artificial synapses is demonstrated. Multiple conductance states can be induced in alpha-In2Se3-based FeSFETs by controlling the out-of-plane polarization, which enables the device to faithfully mimic biosynaptic behaviors. In comparison with charge-trapping-based three-terminal synaptic devices, the electronic synapses based on alpha-In(2)Se(3)have the advantages of good controllability, fast learning, and easy integration of gate dielectric, rendering them promising for neuromorphic computing. In addition, an abnormal resistive switching phenomenon in alpha-In(2)Se(3)is reported when operated in the in-plane ferroelectric switching mode. The findings pave the way forward for alpha-In2Se3-based FeSFETs for developing neuromorphic devices in brain-inspired intelligent systems.
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