纳米电子学
材料科学
极化(电化学)
铁电性
光电子学
纳米技术
纤锌矿晶体结构
纳米尺度
电介质
锌
化学
物理化学
冶金
作者
Haoze Zhang,A. Ayana,Richard F. Webster,Dawei Zhang,Mohammad B. Ghasemian,Rajendra B. Venkataramana,Jan Seidel,Pankaj Sharma
出处
期刊:ACS Nano
[American Chemical Society]
日期:2023-09-01
卷期号:17 (17): 17148-17157
被引量:16
标识
DOI:10.1021/acsnano.3c04937
摘要
Ferroelectrics possess a spontaneous polarization that is switchable by an electric field and is critical for the development of low-energy nanoelectronics and neuromorphic applications. However, apart from a few recent developments, the realization of switchable polarization in metal oxides with simpler structures has been a major challenge. Here, we demonstrate the presence of robust switchable polarization at the level of a single nanocrystallite in magnesium-doped zinc oxide thin films with polar wurtzite crystal structures. Using a combination of high-resolution scanning probe microscopy and spectroscopic techniques, voltage control of the polarization and the coupled electronic transport behavior revealing a giant resistance change of approximately 10000% is unveiled. Time- and frequency-resolved nanoscale measurements provide key insights into the polarization phenomenon and a 9-fold increase in the effective longitudinal piezoelectric coefficient. Our work thus constitutes a crucial step toward validating nanoscale ferroelectricity in polar wurtzites for use in advanced nanoelectronics and memory applications.
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