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Interface Control of Tetragonal Ferroelectric Phase in Ultrathin Si-Doped HfO 2 Epitaxial Films

29 Pages Posted: 30 Apr 2020 Publication Status: Accepted

See all articles by Tao Li

Tao Li

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Juncai Dong

Chinese Academy of Sciences (CAS) - Beijing Synchrotron Radiation Facility

Nian Zhang

Chinese Academy of Sciences (CAS) - Shanghai Institute of Microsystem and Information Technology

Zicheng Wen

Chinese Academy of Sciences (CAS) - Songshan Lake Materials Laboratory

Zhenzhong Sun

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Yang Hai

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Huanyu Liu

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Nobumichi Tamura

University of California, Berkeley - Advanced Light Source

Shaobo Mi

Xi'an Jiaotong University (XJTU) - School of Microelectronics

Shaodong Cheng

Xi'an Jiaotong University (XJTU) - School of Microelectronics

Chuansheng Ma

Xi'an Jiaotong University (XJTU) - School of Microelectronics

Yunbin He

Hubei University - Department of Material Science and Engineering

Shanming Ke

Nanchang University - School of Materials Science and Engineering

Haitao Huang

Hong Kong Polytechnic University - Department of Applied Physics and Materials Research Center

Yongge Cao

Dongguan University of Technology - School of Electrical Engineering & Intelligentization

Abstract

Nanoscaled HfO2-based ferroelectric thin films are a favored candidate for the integration of next-generation memory and logic devices. The unique advantage is ferroelectric polarization becomes more robust than the traditional perovskite ferroelectrics as the size is reduced. Understanding and controlling the ferroelectricity requires high-quality epitaxial thin films to explore intrinsic ferroelectric mechanism and evaluate device applications. Here, we report a semicoherent growth of ITO as a bottom electrode that enables genuine ultrathin epitaxial films of Si-doped HfO2 on YSZ[001]/[110]/[111] substrates. The films, which are under epitaxial compressive strain, display large ferroelectric polarization values up to 42 μC/cm2 and do not need wake-up cycling. Structural characterization reveals the presence of crystalline domains with short axis of the tetragonal structure oriented perpendicular to the substrate. Using piezoforce microscopy, polar domains can be written and read and are reversibly switched with a phase change of 180o. Ferroelectric polarization can be controlled by ITO surface polarity which easily exploiting the interfacial valance mismatch to influence the electrostatic potential across the interface. These findings have implications for our understanding of ferroelectric switching and offer easy method to manipulate domain reversal state in HfO2-based ferroelectric materials.

Keywords: Epitaxial ferroelectric films, Sychrotron X-ray diffraction, Synchrotron X-ray absorption, High-resolution TEM, Pulsed Laser Deposition

Suggested Citation

Li, Tao and Dong, Juncai and Zhang, Nian and Wen, Zicheng and Sun, Zhenzhong and Hai, Yang and Liu, Huanyu and Tamura, Nobumichi and Mi, Shaobo and Cheng, Shaodong and Ma, Chuansheng and He, Yunbin and Ke, Shanming and Huang, Haitao and Cao, Yongge, Interface Control of Tetragonal Ferroelectric Phase in Ultrathin Si-Doped HfO 2 Epitaxial Films. Available at SSRN: https://ssrn.com/abstract=3581339 or http://dx.doi.org/10.2139/ssrn.3581339

Tao Li

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Dongguan, 523808
China

Juncai Dong

Chinese Academy of Sciences (CAS) - Beijing Synchrotron Radiation Facility

Beijing
China

Nian Zhang

Chinese Academy of Sciences (CAS) - Shanghai Institute of Microsystem and Information Technology

52 Sanlihe Rd.
Datun Road, Anwai
Beijing, Xicheng District 100864
China

Zicheng Wen

Chinese Academy of Sciences (CAS) - Songshan Lake Materials Laboratory

Dongguan, Guangdong 523808
China

Zhenzhong Sun

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Dongguan, 523808
China

Yang Hai

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Dongguan, 523808
China

Huanyu Liu

Dongguan University of Technology - Neutron Scattering Technical Engineering Research Center

Dongguan, 523808
China

Nobumichi Tamura

University of California, Berkeley - Advanced Light Source

Berkeley, CA
United States

Shaobo Mi

Xi'an Jiaotong University (XJTU) - School of Microelectronics

Xi'an
China

Shaodong Cheng

Xi'an Jiaotong University (XJTU) - School of Microelectronics

Xi'an
China

Chuansheng Ma

Xi'an Jiaotong University (XJTU) - School of Microelectronics

Xi'an
China

Yunbin He

Hubei University - Department of Material Science and Engineering ( email )

Wuhan, 430062
China

Shanming Ke

Nanchang University - School of Materials Science and Engineering ( email )

China

Haitao Huang

Hong Kong Polytechnic University - Department of Applied Physics and Materials Research Center ( email )

Hong Kong
China

Yongge Cao (Contact Author)

Dongguan University of Technology - School of Electrical Engineering & Intelligentization ( email )

Dongguan, 523808
China

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