Towards wafer-scale growth of two-dimensional cerium dioxide single crystal with high dielectric performance

薄脆饼 电介质 材料科学 单晶 化学工程 纳米技术 光电子学 结晶学 化学 冶金 工程类
作者
Zhuofeng Shi,Imran Muhammad,Xiaohong Chen,Xin Liu,Yaqi Zhu,Zhaoning Hu,Saiyu Bu,Jialin Zhang,Chunhu Li,Xiaodong Zhang,Lin Li
出处
期刊:Nano Research [Springer Science+Business Media]
卷期号:17 (9): 8592-8599 被引量:2
标识
DOI:10.1007/s12274-024-6761-8
摘要

Owing to the atomically thin nature, two-dimensional (2D) oxide materials have been widely reported to exhibit exciting transport and dielectric properties, such as fine gate controllability and ultrahigh carrier mobility, that outperform their bulk counterpart. However, unlike the successful synthesis of bulk oxide single crystals, reliable methods for synthesizing large-area single crystal of 2D oxide, that would suppress the negative influence from defective grain boundaries, remain unavailable, especially for nonlayered oxide. Herein, we report that the lattice symmetry between the substrate and cerium dioxide (CeO2) would allow for the aligned nucleation and epitaxial growth of CeO2 on sapphire substrates, enabling the wafer-sized growth of CeO2 single crystal. The careful tuning of the growth temperature and oxygen flow rate contributed to the harvesting of CeO2 wafer with reduced thickness and enhanced growth rates. The removal of grain boundaries improved the dielectric performance in terms of high dielectric strength (Ebd ≈ 8.8 MV·cm−1), suppressed leakage current, along with high dielectric constants (εr ≈ 24). Our work demonstrates that with fine dielectric performance and ease of synthesizing wafer-sized single crystals, CeO2 can function as potential candidate as gate insulator for 2D-materials based nanoelectronics, and we believe the reported protocol of aligned nucleation can be extended to other 2D oxides.
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