Jim Steinwall scite author profile

Many semiconductor products are manufactured with mature technologies involving the uses of aluminum (Al) lines and tungsten (W) vias. High resistances of the vias were sometimes observed only after electrical or thermal stress. A layer of Ti oxide was found on such a via. In the wafer processing, the post W chemical mechanical planarization (WCMP) cleaning left residual W oxide on the W plugs. Ti from the overlaying metal line spontaneously reduced the W oxide, through which Ti oxide formed. Compared with W oxide, the Ti oxide has a larger formation enthalpy, and the valence electrons of Ti are more tightly bound to the O ion cores. As a result, the Ti oxide is more resistive than the W oxide. Consequently, the die functioned well in the first test in the fab, but the via resistance increased significantly after a thermal stress, which led to device failure in the second test. The NH4OH concentration was therefore increased to more effectively remove residual W oxide, which solved the problem. The thermal stress had prevented the latent issue from becoming a more costly field failure.

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Microstructure evolutions upon Ni(Pt) silicidation and the different responses to the metal etch

Qin

Iyer

Steinwall

et al. 2020

Microelectronics Reliability

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Mechanism of carbon particle-induced latent leakage between metal lines

Qin

Deal

Steinwall

et al. 2019

Microelectronics Reliability

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Jim Steinwall

Via resistance increase accelerated by thermal stress

A Latent Issue of Via Resistance: Mechanism and Solution

Microstructure evolutions upon Ni(Pt) silicidation and the different responses to the metal etch

Mechanism of carbon particle-induced latent leakage between metal lines

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