Unconventional ferroelectricity appears at hBN edges and line-defect interfaces in non-aligned graphene-hBN heterostructures, linked to localized charge states identified via gate-dependent measurements.
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The paper reviews fundamental mechanisms, device architectures, and emerging applications of light-controlled van der Waals tunnel junctions while outlining future opportunities in quantum-geometric probes and moire-based devices.
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Observation of Unconventional Ferroelectricity in Non-Moir'\e Graphene on Hexagonal Boron Nitride Boundaries and Interfaces
Unconventional ferroelectricity appears at hBN edges and line-defect interfaces in non-aligned graphene-hBN heterostructures, linked to localized charge states identified via gate-dependent measurements.
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Light-controlled van der Waals tunnel junctions: mechanisms, architectures, functionalities, and opportunities
The paper reviews fundamental mechanisms, device architectures, and emerging applications of light-controlled van der Waals tunnel junctions while outlining future opportunities in quantum-geometric probes and moire-based devices.