The activity, product selectivity, and stability of a series of bifunctional zeolite catalysts, primary ZSM-12, USY, and β-zeolite, with different Si/Al ratios were compared for the hydroisomerization and hydrocracking ofn-octane. The performance of L-zeolite and mordenite was examined to a lesser extent as well. It was found that the activity per acidic site decreases at the initial stage (1 h on stream) in the following order: ZSM-12 > β-zeolite > mordenite > USY > L-zeolite. For extended periods of operation, the activity of ZSM-12 remains unchanged. The superior stability of ZSM-12 even under accelerating coking conditions results from its unique pore structure, which does not favor coke formation. Its one-dimensional noninterpenetrating puckered channels (5.5×6.1 Å) act as perfect tubes, which do not trap coke precursors. The branched product selectivity increases with the increase in Brønsted acid site strength of the zeolite catalysts, and thus hydroisomerization is favored at the expense of cracking at a higher Brønsted acid strength. USY-5.8 (CBV-712) showed relatively high initial activity with respect to other USYs. This is probably related to its high surface Al content. The Brønsted acid strength of the USY zeolites decreases in the order USY-2.6 > USY-28 ≥ USY-5.8. The 2,2-DMC6and 3,3-DMC6isomers are not favored as final products due to their bulky molecular size even in USY. In addition, the 2,2-DMC6species is more abundant than 3,3-DMC6because the rate of isomerization by PCP intermediates decreases in the following order: 2-MC7> 3-MC7> 4-MC7. The 2,3-DMC6concentration is much higher than that predicted by equilibrium, which indicates that the interconversion of 2,3-DMC6to other dibranched isomers is not preferred. The i-C4/n-C4ratio detected depends on both the reaction temperature and zeolite pore structure/acidity. Aluminium content determines the type of β-scission. For zeolites with a high concentration of acid sites (Si/Al < about 30), type A β-scission dominates at low temperature, while at lower Al content, type A, B, and C β-scissions are equally important.