C. Vrancken scite author profile

Abstract-We present the data on specific silicide-to-silicon contact resistance (ρ c ) obtained using optimized transmission-line model structures, processed for a broad range of various n-and p-type Si doping levels, with NiSi and PtSi as the silicides. These structures, despite being attractive candidates for embedding in the CMOS processes, have not been used for NiSi, which is the material of choice in modern technologies. In addition, no database for NiSi-silicon contact resistance exists, particularly for a broad range of doping levels. This letter provides such a database, using PtSi extensively studied earlier as a reference.

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Linewidth effect and phase control in Ni fully silicided gates

Kittl

Lauwers

Hoffmann

et al. 2006

IEEE Electron Device Lett.

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Impact of crystallization behavior of SrxTiyOz films on electrical properties of metal-insulator-metal capacitors with TiN electrodes

Pawlak

Kaczer

Kim

et al. 2010

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Metastable perovskite SrxTiyOz (STO) films were formed over a wide composition range by crystallization of layers grown by atomic layer deposition. An expansion of the lattice, decrease in permittivity and mild increase in band gap are observed with increasing Sr content. Sr-rich films [Sr/(Sr+Ti)∼62 at. %] show significant improvement in leakage current at low equivalent oxide thicknesses (EOT) as compared to stoichiometric films (Sr/(Sr+Ti) ∼50 at. %). TiN/STO/TiN capacitors with leakage ∼10−6 A/cm2 at 1 V were obtained at 0.6 nm EOT for crystalline Sr-rich STO. The difference in leakage behavior was found to correlate with different microstructures developed during crystallization.

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C. Vrancken

Response of a single trap to AC negative Bias Temperature stress

Benchmarking SOI and bulk FinFET alternatives for PLANAR CMOS scaling succession

Systematic TLM Measurements of NiSi and PtSi Specific Contact Resistance to n- and p-Type Si in a Broad Doping Range

Linewidth effect and phase control in Ni fully silicided gates

Impact of crystallization behavior of SrxTiyOz films on electrical properties of metal-insulator-metal capacitors with TiN electrodes

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