▎ 摘　　要

In this paper, we investigate the spinless stationary Schrodinger equation for the electron when it is per-manently bound to a generalized Ellis-Bronnikov bilayer graphene wormholelike surface. The curvature gives rise to a geometric potential affecting thus the electronic dynamics. The geometry of the wormhole's shape is controlled by the parameter n which assumes even values. We discuss the role played by the parameter n and the orbital angular momentum on bound states and probability density for the electron.