Optimizing Reliability: Suppressing Wake-Up Effects in Morphotropic Phase Boundary-Engineered Hf x Zr1-x O2 Ferroelectrics
- Authors
- Han, Changhyeon; Kwak, Been; Choi, Joonhyeok; Jeong, Woojung; Choi, Rino; Kwon, Daewoong
- Issue Date
- Jun-2025
- Publisher
- AMER CHEMICAL SOC
- Keywords
- ferroelectric; Hf x Zr1-x O2 (HZO); heterostruturedHZO; metal-ferroelectric-metal (MFM); morphotropicphase boundary (MPB); phase transition
- Citation
- ACS Applied Electronic Materials, v.7, no.13, pp 6027 - 6032
- Pages
- 6
- Indexed
- SCIE
SCOPUS
- Journal Title
- ACS Applied Electronic Materials
- Volume
- 7
- Number
- 13
- Start Page
- 6027
- End Page
- 6032
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210116
- DOI
- 10.1021/acsaelm.5c00687
- ISSN
- 2637-6113
2637-6113
- Abstract
- We investigated structural modulation strategies to suppress the wake-up effects in Hf x Zr1-x O2 (HZO)-based metal-ferroelectric-metal capacitors exhibiting morphotropic phase boundary characteristics. Three configurations were analyzed: Al-doped, nanolaminated, and heterostructured HZOs. Depth-profile X-ray photoelectron spectroscopy and atomic force microscopy analyses revealed distinct differences in oxygen vacancy (VO) ratios and grain sizes among the configurations, correlating with their wake-up behaviors. Heterostructured HZO exhibited the lowest VO concentrations (2.49%) and the largest average grain size (7.5 nm), in contrast to Al:HZO (5.2%, 6.2 nm) and laminated HZO (3.3%, 4.8 nm). Owing to its optimized defect profile and enhanced grain morphology, the heterostructured HZO maintains a stable phase composition even after 104 cycles, with minimal degradation in crystallinity and dielectric properties. These results highlight its potential for reliable, high-capacitance dynamic random-access memory (DRAM) applications.
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