Abstract

In recent years, following trends in developing semiconductors, extensive research has been conducted to develop a hafnia‐based ferroelectric field effect transistor (FeFET) memory. However, its fundamental endurance limitation, which stems from early degradation of the gate insulator, has been a major obstacle to the development of FeFETs, with no clear solution despite attempting various approaches to high‐speed and high‐reliability FeFETs. Herein, a novel metal–ferroelectric–metal–insulator–semiconductor FeFET with vertical‐pillar channel and metal–ferroelectric–metal capacitor (VP‐FeFET) that can adjust the capacitance ratio between the ferroelectric film and gate insulator by modulating the channel height is proposed. The optimized VP‐FeFET exhibits a significantly reduced electric field (≤1.5 MV cm−1) through the gate insulator, resulting in a substantially enhanced FeFET endurance. Furthermore, the proposed FeFET achieved a large memory window of ≈5 V and a high program/erase speed of ≈100 ns. These merits are achieved without increasing the footprint of the FeFET device. This approach to high‐performance FeFET can be applied extensively to next‐generation nonvolatile memory devices.

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