In this paper we examined a structural transition from three-dimensional to two-dimensional in the C_nB_6−nH₆ (n = 0–6) series. The searches for all the isomers of clusters were performed using the stochastic search algorithm at the B3LYP/6-31G level of theory. Subsequent geometry optimizations at the hybrid density functional B3LYP/6-311++G^∗∗ level of theory along with single-point CCSD(T) calculations were carried out to estimate relative energies. We found that 3D-2D transition occurs at n = 5 (C₅BH₆). Moreover, the stability of clusters is discussed on the basis of the binding energy per atom, second-order energy difference, adiabatic ionization potential, HOMO–LUMO energy gap and polarizability. Based on the simultaneous criteria of high binding energy, high band gap, high adiabatic ionization potential and low polarizability, it is found that C₂B₄H₆ cluster has a higher stability.