We report electron doping effects by Ni in K\(_{x}\)Fe\(_{2-\delta-y}\)Ni\(_{y}\)Se\(_{2}\) (0.06 \(\leq\) \(y\) \(\leq\) 1.44) single crystal alloys. A rich ground state phase diagram is observed. Small amount of Ni (\(\sim\) 4\%) suppressed superconductivity below 1.8 K, inducing insulating spin glass magnetic ground state for higher Ni content. With further Ni substitution, metallic resistivity is restored. For high Ni concentration in the lattice the unit cell symmetry is high symmetry \(I4/mmm\) with no phase separation whereas both \(I4/m + I4/mmm\) space groups were detected in the phase separated crystals when concentration of Ni \(<\) Fe. The absence of superconductivity coincides with the absence of crystalline Fe vacancy order.