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First Demonstration of Thermally Stable Zr:HfO2 Ferroelectrics Via Inserting AlN Interlayer

Authors
Lee, SangmokKim, GiukLee, SanghoShin, HunbeomLim, YoungjinKim, KangKim, Do-HyungOh, Il-KwonKo Park, Sang-HeeAhn, JinhoJeon, Sanghun
Issue Date
Sep-2024
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS IN
Keywords
III-V semiconductor materials; Aluminum nitride; Iron; Thermal stability; Plasmas; Leakage currents; Switches; HfZrO; ferroelectric; hafnia; thermal stability; 3D integration; thermal budget
Citation
IEEE ELECTRON DEVICE LETTERS, v.45, no.9, pp 1578 - 1581
Pages
4
Indexed
SCIE
SCOPUS
Journal Title
IEEE ELECTRON DEVICE LETTERS
Volume
45
Number
9
Start Page
1578
End Page
1581
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/213056
DOI
10.1109/LED.2024.3424973
ISSN
0741-3106
1558-0563
Abstract
This letter introduces a novel methodology to improve the thermal stability of Zr:HfO2 (HZO) ferroelectric (FE) materials by adding AlN as the middle interlayer (IL) between HZO. Adding AlN to HZO improves the thermal stability of FE layers in three ways. Initially, the growth of grains and the formation of the dielectric monoclinic (m-) phase are kinetically suppressed in the HZO when subjected to a subsequent thermal budget (TB) after crystallization annealing for the formation of FE layers. The middle IL acts as a physical barrier that hinders the formation of leakage paths along grain boundaries with increasing TB. Additionally, NH3 plasma treatment during AlN deposition improves the interface quality between the IL and bottom HZO FE layer. Collectively, these beneficial effects synergistically contribute to the enhancement of thermal stability, ensuring outstanding remanent polarization (2Pr ≈ 24 μC/cm2) and reliability (≈4.3×104 cycles) even under high TB (800 °C for 30 min.). This study is a significant initial step in investigating the use of HZO FE material in 3D memory devices, which require high TB due to intricate process integration. IEEE
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