Low-resistance submicron CVD W interlevel via plugs on Al-Cu-Si

Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference Pub Date : 1989-06-12 DOI:10.1109/VMIC.1989.78013

R. Joshi, S. Brodsky, T. Bucelot, M. Jaso, R. Uttecht

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引用次数: 1

Abstract

The most critical issues of interfacial contact between CVD (chemical vapor deposition) W and Al-Cu-Si in submicron vias using SiH/sub 4/ and H/sub 2/ reduction of WF/sub 6/ are addressed. The effect of process parameters of selective CVD W, especially when deposited by SiH/sub 4/-based chemistry, on contact resistance to Al-Cu-Si is evaluated for the first time. It is observed that out of all process parameters the deposition temperature affects the contact resistance the most. As the deposition temperature increases, the contact resistance of the stack W/Al-Cu-Si decreases. Specific resistivities, as low as 3-5*10/sup -9/ Omega cm/sup 2/, are realized at turret temperatures of 550 degrees C. On the other hand, the contact resistances are relatively unaffected by partial pressures of SiH/sub 4/ or WF/sub 6/. As a result the growth rates which are dependent on partial pressures do not control the contact resistances. Phosphoric-chromic and buffered hydrofluoric acid cleanings combined with higher deposition temperatures yield relatively superior contact resistance compared to other cleaning techniques.<>

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低电阻亚微米CVD W间通过插头铝铜硅

利用SiH/sub - 4/和H/sub - 2/还原WF/sub - 6/，解决了化学气相沉积(CVD) W与Al-Cu-Si在亚微米孔中界面接触的最关键问题。首次评价了选择性CVD工艺参数，特别是SiH/sub - 4基化学沉积工艺参数对Al-Cu-Si接触电阻的影响。在所有的工艺参数中，沉积温度对接触电阻的影响最大。随着沉积温度的升高，W/Al-Cu-Si叠层的接触电阻减小。在550℃的转塔温度下，可实现低至3-5*10/sup -9/ Omega cm/sup 2/的比电阻。另一方面，接触电阻相对不受SiH/sub 4/或WF/sub 6/分压的影响。因此，依赖于分压的生长速率不能控制接触电阻。磷铬和缓冲氢氟酸清洗结合较高的沉积温度，与其他清洗技术相比，产生相对优越的接触电阻

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Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference

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