We study the electronic transport through the (112) surface of the CuInSe2 compount, coupled with a quantum dot, considering strong electronic repulsion inside the dot. The surface density of states was obtained by the tigh-binding method and the surface Grenn functions matching technique; the interaction between the quantum dot and the surface, is taking in account by the local local Green function, considering quantum hibridization between the surface and the quantum dot. The electronic interaction is modeled by the Anderson impurity within the X-boson treatment, describing the localized states in this model as linked with the quantum dot. We compute the linear conductance in the Kondo, intermediate valence and empty quantum dot regimenes, obtaining evidence of a Fano resonance. We expect that a possible experimental realization for the system could be obtained.