Exploring the Impact of Fe-Implantation on the Electrical Characteristics of Al/p-Si Schottky Barrier Diodes

J. O. Bodunrin, Duke Ateyh Oeba, S. J. Moloi
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Abstract

The effects of Fe-implantation on the electrical characteristics of Au/p-Si Schottky barrier diodes (SBDs) were studied using current–voltage (I–V) and capacitance–voltage (C–V) techniques. The Rutherford Backscattering Spectrometry (RBS) and Energy Dispersive Spectroscopy (EDS) results showed that Fe ions are well implanted and present in the Fe-implanted Si material. The acquired results from I–V and C–V analysis showed that the diodes were well fabricated, and Fe-implantation changed the normal diode’s I–V behaviour from typical exponential to ohmic. The ohmic behaviour was described in terms of the defect levels induced by Fe in the middle of the band gap of Si. The conduction mechanism for both forward and reverse currents was presented, and the effect of Fe-implantation on the conduction mechanisms was investigated. The C–V results show that Fe generates a high density of minority carriers in p-Si, which agreed with the increase in reverse current observed in the I–V results. The diode parameters in terms of saturation current, ideality factor, Schottky barrier height, doping density, and space charge region (SCR) width were used to investigate the effect of Fe in p-Si based diode. Owing to the observed changes, which were analogous to those induced by dopants that improve the radiation hardness of silicon, it was safe to say that Fe can also assist in the quest to improve the radiation hardness of silicon using the defect-engineering method.
探索铁注入对Al/p-Si肖特基势垒二极管电学特性的影响
采用电流-电压(I-V)和电容-电压(C-V)技术研究了fe注入对Au/p-Si肖特基势垒二极管(sbd)电特性的影响。卢瑟福后向散射光谱(RBS)和能量色散光谱(EDS)结果表明,铁离子在注入铁的Si材料中有良好的注入。I-V和C-V分析结果表明,该二极管制作良好,fe注入使普通二极管的I-V行为由典型指数型转变为欧姆型。欧姆行为被描述为由铁在硅的带隙中间引起的缺陷水平。提出了正反电流的导电机理,并研究了注入铁对导电机理的影响。C-V结果表明,Fe在p-Si中产生了高密度的少数载流子,这与I-V结果中观察到的反向电流增加一致。利用饱和电流、理想因数、肖特基势垒高度、掺杂密度和空间电荷区宽度等参数考察了Fe对p-Si基二极管的影响。由于观察到的变化与掺杂剂提高硅的辐射硬度所引起的变化类似,因此可以肯定地说,铁也可以通过缺陷工程方法帮助寻求提高硅的辐射硬度。
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