用于ULSI应用的ni -硅化物/Si和SiGe(C)接触技术

2006 14th IEEE International Conference on Advanced Thermal Processing of Semiconductors Pub Date : 2006-10-01 DOI:10.1109/RTP.2006.367979

O. Nakatsuka, S. Zaima, A. Sakai, M. Ogawa

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引用次数: 0

摘要

我们研究了用于ULSI应用的硅化镍/Si和SiGeC触点的晶体和电学性能。NiSi/Si触点保证n+-和p+-Si的接触电阻率低至10-8 Omegacm2。NiSi层的片电阻退化主要取决于退火时间，特别是在650℃至750℃的温度范围内。硅暴露区扩大是导致硅片电阻增大的主要原因，该过程的活化能估计为2.8±0.4 eV。在Ni/Si体系中掺入Ge可以有效地提高NiSi到NiSi2的转变温度。在NiSi/Si体系中加入C可有效抑制NiSi团聚。C的引入还会导致B原子在NiSi/Si界面堆积，从而有望降低接触电阻率

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Ni-Silicide/Si and SiGe(C) Contact Technology for ULSI Applications

We have investigated the crystalline and electrical properties of Ni silicide/Si and SiGeC contacts for ULSI applications. NiSi/Si contacts promises the contact resistivity as low as 10-8 Omegacm2 for both n+- and p+-Si. Degradation of the sheet resistance of NiSi layers critically depends on the annealing time particularly at temperatures ranging from 650degC to 750degC. The enlargement of the Si-exposed region concomitant with the NiSi agglomeration is a dominant factor responsible for the increase in sheet resistance and the activation energy of this process is estimated to be 2.8plusmn0.4 eV. Incorporation of Ge into Ni/Si systems is effective in raising the transformation temperature from NiSi to NiSi2. Incorporation of C into NiSi/Si system effectively suppresses the NiSi agglomeration. C introduction also causes the pile-up of B atoms at the NiSi/Si interface, which promises the reduction of the contact resistivity

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2006 14th IEEE International Conference on Advanced Thermal Processing of Semiconductors

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