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Article Abstract
Achieving synaptic functionality electronically in a single-element quantum material is a fundamental challenge, as conventional methods rely on the introduction of extrinsic charge-traps or polar components. Here, it is demonstrated that twisted double bilayer graphene (tDBLG) moiré superlattices-composed purely of carbon-exhibit electronic hysteresis and plasticity in presence of twist-angle disorder. Inversion symmetry breaking at the moiré length scales also gives rise to second-order nonlinear electrical response via disorder-mediated extrinsic mechanisms. Such second-order nonlinearity is highly tunable in both sign and magnitude by varying carrier concentration and vertical displacement field. The coexistence of electronic plasticity and second-order nonlinearity is harnessed to realize a second-order synaptic memory device. These findings establish strained moiré carbon systems as a powerful new platform for energy-efficient neuromorphic computing, demonstrating that complex electronic functionality can emerge purely from symmetry-breaking physics in a single-element material.
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| http://dx.doi.org/10.1002/adma.202509837 | DOI Listing |
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