An Informetric View to the Negative Capacitance Phenomenon at Interlayered Metal-Semiconductor Structures and Distinct Electronic Devices

Gazi University Journal of Science Part A: Engineering and Innovation Pub Date : 2023-12-13 DOI:10.54287/gujsa.1357391

Nuray Urgun, Jaafar Alsmael, S. O. Tan

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Abstract

Negative Capacitance (NC) phenomenon, which can be explained as the material exhibiting an inductive behavior, is often referred to as "anomalous" or "abnormal" in the literature. Especially in the forward bias/deposition region, the presence of surface states (Nss) and their relaxation times (τ), series resistance (Rs), minority carrier injection, interface charge loss in occupied states under the Fermi energy level, parasitic inductance, or poor measuring equipment calibration problems can be counted among the causes of this phenomenon. Studies on NC behavior have shown that this behavior can be observed for different frequencies, temperatures, and related parameters at forward biases. However, the NC behavior, which appears as an unidentified peak in admittance spectroscopy data, is not yet fully understood. Ultimately, this study aims to compile and analyze the NC reported in selected scientific studies, investigate the source of this phenomenon, and observe statistics in a general view.

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从信息学角度看层间金属半导体结构和不同电子器件的负电容现象

负电容（NC）现象可解释为材料表现出的电感行为，在文献中常被称为 "反常 "或 "异常"。特别是在正向偏压/沉积区域，表面态 (Nss) 的存在及其弛豫时间 (τ)、串联电阻 (Rs)、少数载流子注入、费米能级下占据态的界面电荷损耗、寄生电感或测量设备校准不良等都可能是造成这种现象的原因。对 NC 行为的研究表明，在正向偏压下，不同的频率、温度和相关参数都能观察到这种行为。然而，NC 行为在导纳光谱数据中表现为一个未识别的峰值，人们对它还没有完全了解。最终，本研究旨在对部分科学研究中报告的 NC 进行汇编和分析，调查这一现象的来源，并从总体角度观察统计数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Gazi University Journal of Science Part A: Engineering and Innovation

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