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Impact of ALCVD and PVD Titanium Nitride Deposition on Metal Gate Capacitors

32nd European Solid-State Device Research Conference Pub Date : 2002-09-24 DOI:10.1109/ESSDERC.2002.194998
G. Lujan, T. Schram, L. Pantisano, J. Hooker, S. Kubicek, E. Rohr, J. Schuhmacher, O. Kilpela, H. Sprey, S. De Gendt, K. De Meyer
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引用次数: 15

Abstract

In this paper it will be shown that the deposition method is an important parameter for the electrical properties of the metal gate. Indeed, ALCVD(Atomic Layer Chemical Vapor Deposition) TiN metal has a 5.3eV workfunction, suitable for PMOS devices. The PVD sputtered (Physical Vapor Deposition) TiN has a lower workfunction around 4.8eV and is mid-gap like. The PVD TiN capacitors have a higher effective oxide charge than the ALCVD capacitors as extracted from capacitance measurements and from workfunction calculations. PVD TiN also exhibits process-induced damage as seen from leakage measurements.
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ALCVD和PVD氮化钛沉积对金属栅极电容器的影响
本文将说明沉积方法是影响金属栅极电性能的一个重要参数。事实上,ALCVD(原子层化学气相沉积)TiN金属具有5.3eV的工作函数,适用于PMOS器件。PVD溅射(物理气相沉积)TiN具有较低的工作函数,约为4.8eV,类似于中隙。从电容测量和功函数计算中得出,PVD TiN电容器比ALCVD电容器具有更高的有效氧化物电荷。从泄漏测量中可以看出,PVD TiN也表现出工艺引起的损伤。
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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32nd European Solid-State Device Research Conference
32nd European Solid-State Device Research Conference
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