Combining the electrical and optical control of the polarization, we demonstrate multifunctional devices based on van der Waals ferroelectric In2Se3, which can serve as a logic switch, photodetector, electronic memory, and photonic memory concurrently.
Conventionally,
magnetism arises from the strong exchange interaction
among the magnetic moments of d- or f-shell electrons. It can also
emerge in perfect lattices from nonmagnetic elements, such as that
exemplified by the Stoner criterion. Here we report tunable magnetism
in suspended rhombohedral-stacked few-layer graphene (r-FLG) devices
with flat bands. At small doping levels (n ∼
1011 cm–2), we observe prominent conductance
hysteresis and giant magnetoconductance that exceeds 1000% as a function
of magnetic fields. Both phenomena are tunable by density and temperature
and disappear at n > 1012 cm–2 or T > 5 K. These results are confirmed by first-principles
calculations, which indicate the formation of a half-metallic state
in doped r-FLG, in which the magnetization is tunable by electric
field. Our combined experimental and theoretical work demonstrate
that magnetism and spin polarization, arising from the strong electronic
interactions in flat bands, emerge in a system composed entirely of
carbon atoms.
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