Poly(triacetylene) Oligomers: Conformational Analysis by X-Ray Crystallography and Synthesis of a 17.8-nm-Long Monodisperse 24-mer

Starting from the octameric poly(triacetylene) (PTA) oligomer 1e as a large macromonomer, the monodisperse tetracosamer (24-mer) 1h was prepared by a previously introduced statistical deprotectionoligomerization sequence (Scheme). It is the longest known molecular rod featuring a fully conjugated, nonaromatic all-carbon backbone. Matrix-assisted laser-desorption-ionization time-of-flight (MALDI-TOF) mass spectrometry was particularly useful in the characterization of oligomer 1h and clearly demonstrated its monodispersity (Fig. 1). In an effort to further clarify the conformational preferences of PTA oligomers, the Xray crystal structure of the 3.2-nm-long tetramer 1c was solved (Figs. 2 ± 4). In the solid state, the CC bonds in 1c all adopt the s-trans conformation with respect to the buta-1,3-diynediyl moieties. The p-conjugated system is perfectly planar, with the squared sum of the deviations of the backbone C-atoms from the best plane amounting to 0.077 2 . Analysis of the crystal lattice revealed a layered structure, in which the p-conjugated backbone of one oligomer is insulated by the trialkylsilyl groups of adjacent oligomers in neighboring layers.