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Transistors with ferroelectric ZrXAl1−XOY crystallized by ZnO growth for multi-level memory and neuromorphic computing

Md Mobaidul Islam, Arqum Ali, Chanju Park, Taebin Lim, Dong Yeon Woo, Joon Young Kwak, Jin Jang

2024Communications Materials13 citationsDOIOpen Access PDF

Abstract

Abstract Ferroelectric (FE) field-effect transistors are interesting for their non-destructive readout characteristic and energy efficiency but are difficult to integrate on silicon platforms. Here, FE Zr X Al 1−X O Y (ZAO) is demonstrated by compressive strain in contact with ZnO. The metal-ferroelectric-semiconductor-metal capacitor exhibits a substantial remnant polarization of 15.2 µC cm −2 , along with a bowknot-like anti-clockwise hysteresis in the capacitance curves. The FE-ZAO gated ZnO thin-film transistor presents a large memory window (3.84 V), low subthreshold swing (55 mV dec −1 ), high I ON /I OFF ratio (≈10 8 ), and low off-state current (≈1 pA). The grazing incidence X-ray diffraction and scanning transmission electron microscopy analyses reveal the ferroelectric rhombohedral phase (space group R3m) in the nanocrystal ZAO, containing an angle of ≈71.7° between the [111] and [11-1] directions with d 111 -spacing of 3.037 Å and d 11-1 -spacing of 2.927 Å. Finally, the memory and neuromorphic applications are analyzed by demonstrating multi-level memory and synaptic weight performance with a high learning accuracy of 91.82%.

Topics & Concepts

Materials scienceFerroelectricityOptoelectronicsNeuromorphic engineeringTransistorNegative impedance converterNon-volatile memoryPolarization (electrochemistry)CapacitorNanotechnologyVoltageElectrical engineeringComputer scienceChemistryArtificial neural networkMachine learningVoltage sourcePhysical chemistryEngineeringDielectricFerroelectric and Negative Capacitance DevicesAdvanced Memory and Neural ComputingFerroelectric and Piezoelectric Materials
Transistors with ferroelectric ZrXAl1−XOY crystallized by ZnO growth for multi-level memory and neuromorphic computing | Litcius