Formation of cobalt silicided shallow junction using implant into/through silicide technology and low temperature furnace annealing

This work investigates the shallow CoSi₂ contacted junctions formed by BF₂⁺ and As⁺ implantation, respectively, into/through cobalt silicide followed by low temperature furnace annealing. For p⁺n junctions fabricated by 20 keV BF₂⁺ implantation to a dose of 5×10¹⁵ cm^-2, diodes with a leakage current density less than 2 nA/cm² at 5 V reverse bias can be achieved by a 700°C/60 min annealing. This diode has a junction depth less than 0.08 μm measured from the original silicon surface. For n⁺p junctions fabricated by 40 keV As⁺ implantation to a dose of 5×10¹⁵ cm^-2, diodes with a leakage current density less than 5 nA/cm² at 5 V reverse bias can be achieved by a 700°C/90 min annealing; the junction depth is about 0.1 μm measured from the original silicon surface. Since the As⁺ implanted silicide film exhibited degraded characteristics, an additional fluorine implantation was conducted to improve the stability of the thin silicide film. The fluorine implantation can improve the silicide/silicon interface morphology, but it also introduces extra defects. Thus, one should determine a tradeoff between junction characteristics, silicide film resistivity, and annealing temperature