Electrically Switchable Polarization in Bi2O2Se Ferroelectric Semiconductors

Atomically 2D layered ferroelectric semiconductors, in which the polarization switching process occurs within the channel material itself, offer a new material platform that can drive electronic components toward structural simplification and high-density integration. Here, a room-temperature 2D layered ferroelectric semiconductor, bismuth oxychalcogenides (Bi2O2Se), is investigated with a thickness down to 7.3 nm (approximate to 12 layers) and piezoelectric coefficient (d(33)) of 4.4 +/- 0.1 pm V-1. The random orientations and electrically dependent polarization of the dipoles in Bi2O2Se are separately uncovered owing to the structural symmetry-breaking at room temperature. Specifically, the interplay between ferroelectricity and semiconducting characteristics of Bi2O2Se is explored on device-level operation, revealing the hysteresis behavior and memory window (MW) formation. Leveraging the ferroelectric polarization originating from Bi2O2Se, the fabricated device exhibits smart photoresponse tunability and excellent electronic characteristics, e.g., a high on/off current ratio > 10(4) and a large MW to the sweeping range of 47% at V-GS = +/- 5 V. These results demonstrate the synergistic combination of ferroelectricity with semiconducting characteristics in Bi2O2Se, laying the foundation for integrating sensing, logic, and memory functions into a single material system that can overcome the bottlenecks in von Neumann architecture.

Automated summary

Atomically 2D layered ferroelectric semiconductor bismuth oxychalcogenides (Bi2O2Se) with a thickness of 7.3 nm and a piezoelectric coefficient (d(33)) of 4.4 +/- 0.1 pm V-1 is investigated. The random orientations and electrically dependent polarization of the dipoles are uncovered, and the interplay between ferroelectricity and semiconducting characteristics in Bi2O2Se is explored on device-level operation, showing hysteresis behavior and memory window formation. Leveraging the ferroelectric polarization, the fabricated device exhibits smart photoresponse tunability and excellent electronic characteristics.