A Study on the Wide Frequency Range Electrical Variables in the Al/Coumarin–PVA/p-Si Diodes at Room Temperature

Gazi University Journal of Science Part A: Engineering and Innovation Pub Date : 2023-03-13 DOI:10.54287/gujsa.1202745

S. Demirezen

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Abstract

Coumarin-PVA is deposited onto p-Si wafers using the spin coating technique. I examined the fundamental electrical variables of the Al/CoumarinPVA/p-Si type Schottky barrier diodes (SBDs), by utilizing capacitance/voltage(C-V) and conductance/voltage (G-V) measurements at different frequencies varied from 10kHz to1MHz. I have thoroughly explored how the CoumarinPVA interlayer, series resistance (Rs) and surface states (Nss) affect the electrical properties of SBDs. In order to remove Rs's influence on the observed C and G values, I corrected them. The observed high values of C/G measured at low frequencies result from the existence of interfacial states. There is evidence that while NA decreases exponentially with increasing frequency, B increases exponentially. A particular distribution of Nss density, polarization processes, and the existence of an interfacial layer can all contribute to explaining these characteristic features of them. According to experimental findings, I conclude that the interfacial polymer CoumarinPVA layer as well as the Nss and Rs also have a significant impact on the C/G-V quantities of SBDs.

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室温下Al/香豆素- pva /p-Si二极管宽频率电变量的研究

采用自旋镀膜技术将香豆素- pva沉积在p-Si晶片上。我检查了Al/香豆素/ PVA/p-Si型肖特基势垒二极管(sdd)的基本电变量，通过利用电容/电压(C-V)和电导/电压(G-V)测量不同频率从10kHz到1mhz不等。我深入探讨了香豆素- PVA夹层、串联电阻(Rs)和表面态(Nss)如何影响sbd的电学性能。为了消除Rs对观测到的C和G值的影响，我对它们进行了修正。在低频率下观测到的高C/G值是由于界面态的存在。有证据表明，随着频率的增加，NA呈指数级下降，而B呈指数级增长。Nss密度的特定分布、极化过程和界面层的存在都有助于解释它们的这些特征。根据实验结果，我得出结论，界面聚合物香豆素和PVA层以及Nss和Rs对sbd的C/G-V量也有显著影响。

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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