4-Levels Vertically Stacked SiGe Channel Nanowires Gate-All-Around Transistor with Novel Channel Releasing and Source and Drain Silicide Process

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Abstract

In this paper, the fabrication and electrical performance optimization of a four-levels vertically stacked Si0.7Ge0.3 channel nanowires gate-all-around transistor are explored in detail. First, a high crystalline quality and uniform stacked Si0.7Ge0.3/Si film is achieved by optimizing the epitaxial growth process and a vertical profile of stacked Si0.7Ge0.3/Si fin is attained by further optimizing the etching process under the HBr/He/O2 plasma. Moreover, a novel ACT@SG-201 solution without any dilution at the temperature of 40 °C is chosen as the optimal etching solution for the release process of Si0.7Ge0.3 channel. As a result, the selectivity of Si to Si0.7Ge0.3 can reach 32.84 with a signature of “rectangular” Si0.7Ge0.3 extremities after channel release. Based on these newly developed processes, a 4-levels vertically stacked Si0.7Ge0.3 nanowires gate-all-around device is prepared successfully. An excellent subthreshold slope of 77 mV/dec, drain induced barri-er-lowering of 19 mV/V, Ion/Ioff ratio of 9 × 105 and maximum of transconductance of ~83.35 uS/um are demonstrated. However, its driven current is only ~38.6 μA/μm under VDS = VGS = −0.8 V due to its large resistance of source and drain (9.2 × 105 Ω). Therefore, a source and drain silicide process is implemented and its driven current can increase to 258.6 uA/um (about 6.7 times) due to the decrease of resistance of source and drain to 6.4 × 104 Ω. Meanwhile, it is found that a slight increase of leakage after the silicide process online results in a slight deterioration of the sub-threshold slope and Ion/Ioff ratio. Its leakage performance needs to be further improved through the co-optimization of source and drain implantation and silicide process in the future.

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Cheng, X., Li, Y., Zhao, F., Chen, A., Liu, H., Li, C., … Wang, W. (2022). 4-Levels Vertically Stacked SiGe Channel Nanowires Gate-All-Around Transistor with Novel Channel Releasing and Source and Drain Silicide Process. Nanomaterials, 12(5). https://doi.org/10.3390/nano12050889

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