The structure-property relationship of pentiptycene-incorporated pi-conjugated oligomers and platinum complexes were reported in this thesis. I will briefly introduce the synthesis and applications of pentiptycene derivative in literatures in Chapter 1. In Chapter 2, intrinsic electronic effect of iptycenyl group will be discussed by elucidating conformational preferences of varied-temperature absorption and emission spectra for oligo(p-phenylene ethynylene)s (OPEs). In Chapter 3, the iptycenyl substituent effect has been extensively studied by comparing the photophysical properties in OPEs and oligo(p-phenylene butadiynylene)s (OPBs). The conformational variation is sensitive to environmental change, that is, the conformation tends to be twisted in fluid liquid and be coplanar in amorphous solids. In Chapter 4, linear platinum acetylides incorporating pentiptycene are reported, and the iptycenyl substituent effect on electrochemistry, oxygen sensing, and solid-state behavior are discussed. The complexes with pentiptycene might be function as ratiometric oxygen sensors. In Chapter 5, cyclometalated platinum complexes incorporating pentiptycenes are reported, and intermolecular interaction in aggregates and solid states in the presence of pentiptycene groups are discussed. In this thesis, we get insight of the intrinsic electronic effect of pentiptycenes which have lower polarizability and localized electron distribution. The shielding effect of iptycenyl substituents is evidenced by reducing oxygen quenching and heterogeneous electron transfer. We are able to design mechanophores by introducing pentiptycene groups.