Formation of intermediate phases, Ni3Si2 and Pt6Si5: Nucleation, identification, and resistivity

Abstract

The formation of Ni₃Si₂ from the reaction of Ni₂Si with NiSi, and that of Pt₆Si₅ from the reaction of Pt₂Si with PtSi have been investigated by Rutherford backscattering, x‐ray diffraction, resistance measurements, and optical and electronic microscopy. Standard x‐ray diffraction patterns were calculated for Pt₆Si₅ and for the high‐temperature form (hexagonal) of Pt₂Si. These are shown to match experimental diffraction patterns. Both Ni₃Si₂ and Pt₆Si₅ form quite suddenly (at 470 and 535 °C, respectively) according to the pattern of nucleation‐controlled reactions which are anticipated when the free energies of formation of the new phases are sufficiently small. These observations are discussed with respect to the absence of both Ni₃Si₂ and Pt₆Si₅ from the sequence of phases which form when Ni and Pt thin films react with Si. Resistivity measurements are reported for Ni₃Si₂, Pt₆Si₅, and for the two forms (low and high temperature) of Pt₂Si.