Endurance > 1011 Cycling of 3D GAA Nanosheet Ferroelectric FET with Stacked HfZrO2 to Homogenize Corner Field Toward Mitigate Dead Zone for High-Density eNVM
C.-Y. Liao, K.-Y. Hsiang, Z.-F. Lou, Hsuan-Chi Tseng, C. Lin, Z.-X. Li, F.-C. Hsieh, C. C. Wang, Fu-Sheng Chang, Wei-Chang Ray, Y. Tseng, Shu-Tong Chang, T. C. Chen, M. Lee
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引用次数: 7
Abstract
After 1011 high endurance cycles with memory window (MW) =0.9 V is achieved for the 3D gate-all-around (GAA) nanosheet (NS) ferroelectric field-effect transistor (FeFET) based on double-HZO; the aim is to homogenize the corner field and mitigate dead zones. The interlayer Al2O3 or TiN in the double-HZO exhibits MW enhancement or low access voltage, respectively. The proposed MFMFS GAA-FeFET demonstrates a low VP/E = ±3.5 V (±2.3 MV/cm), large MW = 1.3 V, >1011 robust endurance cycles, and stable storage with data retention of >2×104 s; therefore, physical dimension scaling of the embedded nonvolatile memory (eNVM) is feasible for future generations.
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