We report the first angle resolved photoemission spectroscopy (ARPES) study of single crystals of a borocarbide superconductor. In the normal state, there is clear evidence of dispersion within the manifold of Ni 3d features between ∼ 1 and 3 eV binding energy. Dispersive features were also observed within ∼ 1 eV of the Fermi level (E F ) near the Γ and Z points of the bulk Brillouin zone. Resonant photoemission indicates partial Ni character for these states. An E F crossing occurs at a k-space position that is consistent with a predicted hole pocket centered on the G 1 point of the reciprocal lattice. In the photon energy range used (17-200 eV), symmetry points in multiple Brillouin zones were consistently located assuming a free electron final state.