Theoretical investigations on exploring Si-based heterostructures with cubic and ground-state perovskites

IF 4.4 2区物理与天体物理 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Results in Physics Pub Date : 2024-10-22 DOI:10.1016/j.rinp.2024.108022

Yunting Liang , Yajun Zhang , Wenyi Tong , Philippe Ghosez , Eric Bousquet , Matjaž Spreitzer

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引用次数: 0

Abstract

First principles calculations in the framework of density functional theory (DFT) are performed to exploit replaceable perovskite oxides against the instability of traditional cubic SrTiO₃ grown on silicon substrate. In this work, we consider more thermostable CaTiO₃ and CaZrO₃ with cubic and ground-state phase as the candidates to perform the gate dielectric. After the calibration of total energy and lattice transformation of ground-state perovskites to match with Si substrate, three categories of 2 × 2 heterostructures have been constructed and investigated through the geometrical change, atom displacement around interfacial layer, total energy and electronic structure change, under the variations on perovskite species, the concentration of interfacial layer and the thickness of perovskite film. And the results demonstrate that the category with half a monolayer of Ca/Sr atoms in interfacial layer and two unit-cell perovskite thicknesses show the type-I band alignment through their band alignment. Among this category, the heterostructure with Pnma CaZrO₃ shows semiconductivity and excellent electrical property with larger band offset for the candidate of gate dielectric. This work provides a creative perspective to expand the perovskite diversity for the booming growth of integrated circuit technology.

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探索硅基异质结构与立方和基态过氧化物的理论研究

我们在密度泛函理论（DFT）框架内进行了第一性原理计算，以利用可替代的过氧化物来解决在硅衬底上生长的传统立方氧化钛的不稳定性问题。在这项工作中，我们将具有立方相和基态相的热稳定性更强的 CaTiO3 和 CaZrO3 作为栅极电介质的候选材料。在校准了与硅衬底相匹配的基态包晶的总能和晶格变化后，我们构建了三类 2 × 2 异质结构，并在包晶种类、界面层浓度和包晶薄膜厚度变化的条件下，通过几何变化、界面层周围原子位移、总能和电子结构变化进行了研究。结果表明，界面层中含有半单层钙/锶原子和两种单位晶胞厚度的包晶通过其带排列呈现出Ⅰ型带排列。在这类异质结构中，Pnma CaZrO3 异质结构显示出半导体性和优异的电学特性，其带偏移较大，适合作为栅极电介质的候选材料。这项工作提供了一个创造性的视角，为集成电路技术的蓬勃发展拓展了包晶石的多样性。

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来源期刊

Results in Physics MATERIALS SCIENCE, MULTIDISCIPLINARYPHYSIC-PHYSICS, MULTIDISCIPLINARY

CiteScore

8.70

自引率

9.40%

发文量

754

审稿时长

50 days

期刊介绍： Results in Physics is an open access journal offering authors the opportunity to publish in all fundamental and interdisciplinary areas of physics, materials science, and applied physics. Papers of a theoretical, computational, and experimental nature are all welcome. Results in Physics accepts papers that are scientifically sound, technically correct and provide valuable new knowledge to the physics community. Topics such as three-dimensional flow and magnetohydrodynamics are not within the scope of Results in Physics. Results in Physics welcomes three types of papers: 1. Full research papers 2. Microarticles: very short papers, no longer than two pages. They may consist of a single, but well-described piece of information, such as: - Data and/or a plot plus a description - Description of a new method or instrumentation - Negative results - Concept or design study 3. Letters to the Editor: Letters discussing a recent article published in Results in Physics are welcome. These are objective, constructive, or educational critiques of papers published in Results in Physics. Accepted letters will be sent to the author of the original paper for a response. Each letter and response is published together. Letters should be received within 8 weeks of the article''s publication. They should not exceed 750 words of text and 10 references.