The intrinsic faradaic layer in an oxide photoelectrode can accelerate interface charge collection and oxygen evolution reaction kinetics simultaneously.
Layered
metal–organic structures (LMOSs) as magnetoelectric
(ME) multiferroics have been of great importance for realizing new
functional devices in nanoelectronics. Until now, however, achieving
such room-temperature and single-phase ME multiferroics in LMOSs have
proven challenging due to low transition temperature, poor spontaneous
polarization, and weak ME coupling effect. Here, we demonstrate the
construction of a LMOS in which four Ni-centered {NiN2O4} octahedra form in layer with asymmetric distortions using
the coordination bonds between diphenylalanine molecules and transition
metal Ni(II). Near room-temperature (283 K) ferroelectricity and ferromagnetism
are observed to be both spontaneous and hysteretic. Particularly,
the multiferroic LMOS exhibits strong magnetic-field-dependent ME
polarization with low-magnetic-field control. The change in ME polarization
with increasing applied magnetic field μ0
H from 0 to 2 T decreases linearly from 0.041 to 0.011 μC/cm2 at the strongest ME coupling temperature of 251 K. The magnetic
domains can be manipulated directly by applied electric field at 283
K. The asymmetrical distortion of Ni-centered octahedron in layer
spurs electric polarization and ME effect and reduces spin frustration
in the octahedral geometry due to spin-charge-orbital coupling. Our
results represent an important step toward the production of room-temperature
single-phase organic ME multiferroics.
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