2D boron networks in metal borides has been paid attention for exploring topology and functional atomic sheets. YCrB4, a XYB4-type boride (X=rare-earth, Y=transition metal), showcases pentagon-heptagon boron layers under non-symmorphic symmetry. YCrB4 crystal remains unexplored since samples are essentially polycrystalline that are embedded in the amorphous matrix. We grew YCrB4 crystals via arc-melting and post-annealing, producing 0.2~0.3 mm single-crystals confirmed by SEM-EDX and XRD. Mechanical peeling generated 2D flakes for surface analysis. Ar-sputtering and post-annealing unveiled a boron-terminated surface and its metallicity, observed through micro-focused photoelectron spectroscopy (micro-PES) at BL-28A, KEK-PF. The presentation thoroughly details YCrB4's bulk/surface electronic states with experimental and theoretical support. Insights into surface electronic structure arise from comparisons with crystal surface borophene layers.