二维铁氧体场效应晶体管中受极化调控的载流子分布的纳米级绘图。

IF 9.6 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Nano Letters Pub Date : 2024-11-15 DOI:10.1021/acs.nanolett.4c03962

Shengyao Su, Yingli Zhang, Fengyuan Zhang, Chuanlai Ren, Longji Lyu, Mengkang Xu, Changjian Li, Boyuan Huang

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摘要

二维铁电、滑动铁电和二维铁电半导体的出现极大地拓展了二维铁电场效应晶体管（2D FeFET）在非挥发性存储器、神经形态突触和负电容方面的潜在应用。然而，人们对铁电层和半导体层之间的相互作用仍不甚了解，也缺乏在纳米尺度上关联载流子和极化动态的表征方法。利用原位扫描微波阻抗显微镜和压电响应力显微镜测量，我们以基于 Pb(Zr0.2Ti0.8)O3/MoS2 的二维 FeFET 为例，以高空间分辨率揭示了载流子的微观再分布。这项研究揭示了铁电-半导体异质结的微观行为，为深入理解二维铁氧体场效应晶体管纳米尺度的铁电门控效应和保持问题铺平了道路。

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Nanoscale Mapping of Carrier Distribution Regulated by Polarization in 2D FeFETs.

The emergence of 2D ferroelectrics, sliding ferroelectrics, and 2D ferroelectric semiconductors has greatly expanded the potential applications of two-dimensional ferroelectric field-effect transistors (2D FeFETs) in nonvolatile memory, neuromorphic synapses, and negative capacitance. However, the interaction between ferroelectric and semiconductor layers remains not well understood, and characterization methods to correlate carriers and polarization dynamics at the nanoscale are still lacking. Utilizing in situ scanning microwave impedance microscopy and piezoresponse force microscopy measurements, we employed a Pb(Zr_0.2Ti_0.8)O₃/MoS₂-based 2D FeFET as an example to reveal, with high spatial resolution, the microscopic redistribution of carriers. This study uncovers the microscopic behavior of ferroelectric-semiconductor heterojunctions, paving the way for a deeper understanding of ferroelectric-gating effects and retention issues at the nanoscale in 2D FeFETs.

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来源期刊

Nano Letters 工程技术-材料科学：综合

CiteScore

16.80

自引率

2.80%

发文量

1182

审稿时长

1.4 months

期刊介绍： Nano Letters serves as a dynamic platform for promptly disseminating original results in fundamental, applied, and emerging research across all facets of nanoscience and nanotechnology. A pivotal criterion for inclusion within Nano Letters is the convergence of at least two different areas or disciplines, ensuring a rich interdisciplinary scope. The journal is dedicated to fostering exploration in diverse areas, including: - Experimental and theoretical findings on physical, chemical, and biological phenomena at the nanoscale - Synthesis, characterization, and processing of organic, inorganic, polymer, and hybrid nanomaterials through physical, chemical, and biological methodologies - Modeling and simulation of synthetic, assembly, and interaction processes - Realization of integrated nanostructures and nano-engineered devices exhibiting advanced performance - Applications of nanoscale materials in living and environmental systems Nano Letters is committed to advancing and showcasing groundbreaking research that intersects various domains, fostering innovation and collaboration in the ever-evolving field of nanoscience and nanotechnology.

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