Stacked Nanosheet Gate-All-Around Morphotropic Phase Boundary Field-Effect Transistorsopen access
- Authors
- Kim, Sihyun; Kim, Hyun-Min; Kwon, Ki-Ryun; Kwon, Daewoong
- Issue Date
- May-2025
- Publisher
- Wiley-VCH Verlag
- Keywords
- capacitance-boosting; effective oxide thickness; field-effect transistor; gate-all-around; high-kappa, hysteresis-free; HZO, morphotropic phase boundary; nanosheet
- Citation
- Advanced Science, v.12, no.18, pp 1 - 9
- Pages
- 9
- Indexed
- SCIE
SCOPUS
- Journal Title
- Advanced Science
- Volume
- 12
- Number
- 18
- Start Page
- 1
- End Page
- 9
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210624
- DOI
- 10.1002/advs.202413090
- ISSN
- 2198-3844
2198-3844
- Abstract
- A material design method is proposed using ferroelectric (FE)–antiferroelectric (AFE) mixed-phase HfZrO2 (HZO) to achieve performance improvements in morphotropic phase boundary (MPB) field-effect transistors (MPB-FETs), such as steep subthreshold swing (SS) and non-hysteretic on-current (Ion) enhancement. Capacitance (small-signal and quasi-static) and transient current measurements of MPB-FETs confirmed that near-threshold voltage (VTH) capacitance amplification leads to Ion boosts under high-speed and low-power conditions. For the first time, two-stacked nanosheet (NS) gate-all-around (GAA) MPB-FETs with optimized HZO, demonstrating superior short channel effect (SCE) immunity with enhanced current drivability is fabricated. Bias temperature instability (BTI) analyses revealed over-10-year endurance at 0.6 V and 120 °C. The NS MPB-FETs achieved a 24.1% Ion gain, 82.5 mV operating voltage scalability, and a 30.7% AC performance improvement at VDD = 0.6 V compared to control MOSFETs with HfO2 high-k dielectric. Transconductance benchmarks with industrial logic technologies confirmed that the MPB with mixed HZO enables effective oxide thickness scaling without mobility degradation, making NS MPB-FETs an ideal choice for low-power / high-performance CMOS technology.
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