Researchers proposed a new concept for transient negative capacitance (NC) based on inverse polarization switching against the electric field in layered van der Waals (vdW) ferrielectric CuInP2S6.
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Large-scale, coarse-grained molecular dynamics simulations and theoretical considerations of lipid bilayers were used to elucidate the evolution and formation of double-walled lipid vesicles (double membranes).
Fe3-xGeTe2 is a layered van der Waals magnetic material with a relatively high ordering temperature and large anisotropy.
Researchers have shown that scanning transmission electron microscopy (STEM) can be used to learn causal mechanisms – rather than mere correlations – of atomistic behavior in ferroelectric perovskite across
Many interesting questions have been brought into focus with the observations of three perplexing objects.
By utilizing an automated experimentation platform on a microscope, researchers have uncovered a novel domain state in ferroelectrics that has a high electromechanical response.
Variable temperature piezoelectric microscopy combined with density functional theory (DFT) calculations, optical spectroscopy, and material manipulation revealed unusual domain-walls in polar CuInP2Se6, which locally enhances
The search for the neutron electric dipole moment (nEDM) provides a powerful probe of new physics in the CP violating sector.
Neutron scattering from photovoltaic methylammonium lead iodide reveals a giant effect of isotopic substitution on phonons due to coupling with molecule dynamics that results in enhanced thermal resistivity and increased hot-carrier cooling times.
Quantum sensing with entangled light enabled a 50% enhancement in the sensitivity of microcantilever beam displacement measurements.1 This new approach could enable more than two orders of magnitude improvement in the sensitivity of scanning