用于 HfS2 氧化操作光谱成像椭偏仪的多功能拟合方法

IF 4.5 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Irina Chircă, AbdulAziz AlMutairi, Barat Achinuq, Rongsheng Cai, Sarah J Haigh and Stephan Hofmann
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引用次数: 0

摘要

轻松绘制二维异质结构图并将各向异性的形成动力学解析到单层水平,对于开发可扩展的接口解决方案和释放其在新兴纳米光电子学中的应用潜力至关重要。我们为光谱成像椭偏仪(SIE)调整了克雷默-克罗尼格约束变分拟合算法,以促进由具有未知复杂介电函数的薄膜组成的多尺度异质结构分析,并演示了如何实现无损、可扩展的制图和 HfS2 氧化模型系统的操作能力。事实证明,这种方法可以非常准确地评估埋藏的 HfS2 层厚度、氧化物质量以及横向和纵向均匀性。我们捕捉了高达 400 ℃ 的热氧化过程中堆栈的动态演变,深入了解了自限制氧化物生长和反应动力学随温度和时间变化的性质,其中涉及硫反应产物的局部捕获和释放。我们的方法适用于各种材料和器件,而且与底层基底无关。结合 SIE 的各种运行模式,它可以释放出快速、高通量、大面积的能力,从而加速原子尺度的工艺开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Versatile fitting approach for operando spectroscopic imaging ellipsometry of HfS2 oxidation
Facile mapping of 2D heterostructures and resolving anisotropic formation kinetics down to the monolayer level are critical to developing scalable interfacing solutions and unlocking their application potential in emerging nano-optoelectronics. We adapt a Kramers–Kronig constrained variational fitting algorithm for spectroscopic imaging ellipsometry (SIE) to facilitate multi-scale heterostructure analysis comprising films with unknown complex dielectric functions and demonstrate how this enables non-destructive, scalable mapping and operando capability for the model system of HfS2 oxidation. This methodology proves highly accurate for assessing the thickness of buried HfS2 layers, oxide quality, and lateral and vertical uniformity. We capture dynamic stack evolution during thermal oxidation up to 400 ∘C, providing insights into the temperature and time-dependent nature of self-limiting oxide growth and reaction kinetics that involve the localised trapping and release of sulphur reaction products. Our methodology is versatile in material and device horizons, and advantageously agnostic to the underlying substrate. Combined with the various modes of SIE operation, it unlocks fast, high-throughput, large-area capability to accelerate process development at the atomic scale.
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来源期刊
2D Materials
2D Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
10.70
自引率
5.50%
发文量
138
审稿时长
1.5 months
期刊介绍: 2D Materials is a multidisciplinary, electronic-only journal devoted to publishing fundamental and applied research of the highest quality and impact covering all aspects of graphene and related two-dimensional materials.
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