Chemists are always interested in the relationship between conformation of -conjugated backbones and photophysical properties. In our previous work, when the temperature is lowered, the equilibrium of the conformers of pentiptycene-derived oligo(p-phenyleneethynylene)s shifts toward the twisted domains. The origin of the preference of a twisted conformation at low temperature is not fully understood. It is possible that the bulky iptycene substituents impose substantial interactions between the neighboring pentiptycene groups. Therefore, we designed compounds F-3 and F-4 where the pentiptycene groups are separated by butadiyne spacers. We have synthesized compounds F-3 and F-4 by using pentiptycene building blocks. These compounds are showing the emission of twisted conformers at lower temperature (180 K). Solvent effect has little influence on the geometries of the ground states of the planar and twisted forms. When the temperature is lowered (300-180K), the equilibrium of the conformers shifts toward the twisted domains. However, the equilibrium of the conformers shifts toward the planar domains in a glassy solvent (180-80K). According to theoretical calculation and experiment results of F-3, our experiments supported that the planar conformer was less stable than the twisted conformer. We found that the stabilization of the twisted conformer results from electronic effect rather than steric effect.