@article {42456, title = {Polymeric ladderphanes}, journal = {Journal of the American Chemical Society}, volume = {131}, year = {2009}, month = {AUG}, pages = {12579{\textendash}12585}, abstract = {

A new class of polymers, which have a double-stranded polybinorbornene skeleton with multilayer planar oligoaryl linkers, defined as polymeric ladderphanes, are synthesized. The structures of these ladderphanes are determined by spectroscopic means. Photophysical studies and time-resolved fluorescence spectroscopic investigations reveal that there is a strong interaction between the chromophore linkers. Thus, Soret band splitting in the absorption spectrum of the polymer with porphyrin linker (12e), significant fluorescence quenching with oligoaryl linkers (12b-d), and excimer emission with a terphenylene-diethynylene linker (12a) are characteristic photophysical properties of these polymers. Scanning tunneling microscopy shows that polymers 12b and d exhibit a ladder-like morphology and form a supramolecular assembly leading to a two-dimensional ordered array on a highly oriented pyrolytic graphite surface.

}, doi = {10.1021/ja9035362}, author = {Chou, Chih-Ming and Lee, Shern-Long and Chen, Chih-Hsien and Biju, Akkattu T. and Wang, Hsian-Wen and Wu, Yi-Lin and Zhang, Guo-Fu and Yang, Kuang-Wei and Lim, Tsong-Shin and Huang, Min-Jie and Tsai, Po-Yu and Lin, Kin-Chuan and Huang, Shou-Ling and Chen, Chun-hsien and Luh, Tien-Yau} }