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An Extended Unified Schottky-Poole-Frenkel Theory to Explain the Current-Voltage Characteristics of Capacitors Using High-k Dielectric Materials

机译：扩展统一肖特基 - 普尔特弗雷克尔理论，用于使用高k介电材料解释电容器的电流电压特性

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Historically, there is a controversy regarding the current-voltage (I-V) characteristics of thin film MIM (metal-insulator-metal) capacitors, which is quite frequently modeled by either the Schottky model or the Poole-Frenkel model. In this letter, the author points out that the two models actually can be unified. The physics underlying this model involves a non-uniform distribution of defect states such that a very large quantity of defect states exist at the two interface of the MIM capacitor while the density of defect states in the insulator bulk is relatively low, resulting in an M/n-i-n/M structure. This unified Schottky-Poole-Frenkel model can be further extended to include other effects like space charge limited current, tunneling, etc. Evidence supporting this theory will be provided.

机译：从历史上看，关于薄膜MIM（金属 - 绝缘体 - 金属）电容器的电流 - 电压（I-V）特性存在争议，这是由肖特基模型或Poole-Frenkel模型建模的。在这封信中，作者指出，这两个模型实际上可以统一。该模型的物理学涉及缺陷状态的不均匀分布，使得在MIM电容器的两个界面处存在非常大量的缺陷状态，而绝缘体散装中的缺陷状态的密度相对较低，导致M / nin / m结构。该统一的肖特基 - 普尔 - Frenkel模型可以进一步扩展到包括空间充电有限电流，隧道等的其他效果。将提供支持该理论的证据。

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《Meeting of the Electrochemical Society》|2012年||共17页
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W. S. Lau;
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1. An Extended Unified Schottky-Poole-Frenkel Theory to Explain the Current-Voltage Characteristics of Thin Film Metal-Insulator-Metal Capacitors with Examples for Various High-k Dielectric Materials [J] . W. S. Lau ECS Journal of Solid State Science and Technology . 2012,第6期

机译：扩展的统一肖特基-泊尔-弗伦克理论解释薄膜金属-绝缘体-金属电容器的电流-电压特性，并举例说明各种高k介电材料
2. High-k dielectric materials for the gate oxide of a MIS capacitor: effect of interface states on the C-V characteristics [J] . Hlali Slah, Hizem Neila, Kalboussi Adel Journal of Computational Electronics . 2016,第4期

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3. Effect of Heat Budget After Capacitor Formation on the Leakage Current Characteristics of ZrO2-Based High-k Dielectrics for Next-Generation Dynamic Random-Access Memory Capacitors [J] . Lee Jong-Min, Choi Pyung-Ho, Seo Jong-Beom, Journal of nanoscience and nanotechnology . 2020,第1期

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4. An Extended Unified Schottky-Poole-Frenkel Theory to Explain the Current-Voltage Characteristics of Capacitors Using High-k Dielectric Materials [C] . W. S. Lau Meeting of the Electrochemical Society . 2012

机译：扩展统一肖特基 - 普尔特弗雷克尔理论，用于使用高k介电材料解释电容器的电流电压特性
5. Electrical and material characteristics of hafnium-based multi-metal high-k gate dielectrics for future scaled CMOS technology: Physics, reliability, and process development. [D] . Rhee, Se Jong. 2005

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7. Study on the Physical and Leakage Current Characteristics of an Optimized High-k/InAlAs MOS Capacitor with a HfO2–Al2O3 Laminated Dielectric [O] . He Guan, Chengyu Jiang 2018

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8. High-Dielectric-Constant Materials as Capacitor Dielectrics A Study in Dielectric Spectroscopy [R] . A. von Hippel, W. B. Westphal 1959

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An Extended Unified Schottky-Poole-Frenkel Theory to Explain the Current-Voltage Characteristics of Capacitors Using High-k Dielectric Materials

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