Direct combination of carbon structure with optoelectronics crystal: thermal behavior of implanted carbon in lithium niobate crystal at near surface

The thermal motion mechanism of carbon (C) in lithium niobate (LiNbO 3 ) crystal was briefly studied, which provides experience and direction for the experimental parameters of graphene production by direct implantation of carbon ions into LiNbO 3 . Thin-film LiNbO 3 crystal and bulk LiNbO 3 crystal of z-cut were direct implanted by carbon ions with a dose of 1.14 × 10 16 cm −2 and then annealed at different temperatures, thin-film LiNbO 3 at 700 °C and bulk LiNbO 3 at 900 °C. The experimental conditions and parameters of ion implantation and annealing were all the same except the annealing temperature. The samples were characterized by RBS, XRD, EDS and Raman spectrum. The results show that during annealing, the implanted carbon ions aggregate into clusters while moving towards the surface. This behavior prevents the carbon ions from precipitating on the LiNbO 3 surface, which is not conducive to the production of graphene. The formation of graphene on LiNbO 3 surface by direct ion implantation can only occur when implanted C dose and annealing temperature lie in a specific range.