A fluorite-structured HfO2/ZrO2/HfO2superlattice based self-rectifying ferroelectric tunnel junction synapseElectronic supplementary information (ESI) available. See DOI: https://doi.org/10.1039/d4mh00519h

A self-rectifying ferroelectric tunnel junction that employs a HfO2/ZrO2/HfO2superlattice (HZH SL) combined with Al2O3and TiO2layers is proposed. The 6 nm-thick HZH SL effectively suppresses the formation of non-ferroelectric phases while increasing remnant polarization (Pr). This enlarged Prmodulates the energy barrier configuration, consequently achieving a large on/off ratio of 1273 by altering the conduction mechanism from off-state thermal injection to on-state Fowler–Nordheim tunneling. Moreover, the asymmetric Schottky barriers at the top TiN/TiO2and bottom HfO2/Pt interfaces enable a self-rectifying property with a rectifying ratio of 1550. Through calculations and simulations it is found that the device demonstrates potential for achieving an integrated array size exceeding 7k while maintaining a 10% read margin, and shows potential for application in artificial synapses for neuromorphic computing with an image recognition accuracy above 92%. Finally, the self-rectifying behavior and device-to-device variation reliability are confirmed in a 9 × 9 crossbar array structure.