37166-50-0Relevant academic research and scientific papers
Synthesis, characterization, and solid-state polymerization of cross-conjugated octatetraynes
Zhao, Yuming,Luu, Thanh,Bernard, Guy M.,Taerum, Tyler,McDonald, Robert,Wasylishen, Roderick E.,Tykwinski, Rik R.
, p. 994 - 1014 (2013/02/22)
Two series of cross-conjugated 1,3,5,7-octatetraynes (1a-1l and 6a-6d) have been synthesized. UV-vis spectroscopic analysis shows that pendent groups connected to the cross-conjugated skeleton have little effect on the λmax energies, irrespective of whether the groups are electron withdrawing or donating. A number of the isolated products readily give crystals suitable for X-ray crystallography, and the solid-state structural properties of five derivatives (1k, 1l, 6a, 6c, and 6d) have been examined by X-ray crystallographic analysis. Parallel packing of the polyynes in the solid state indicates that four of the five samples are potentially suitable for topochemical polymerization, based on solid-state packing parameters θ, R, and d. Attempts to effect a solid-state reaction have been explored through UV-vis and γ-ray irradiation as well as thermal heating. The course of these reactions was monitored by differential scanning calorimetry (DSC) analysis, as well as UV-vis and solid-state 13C NMR spectroscopy (for 1d, 1j, 1k, and 6d), which offered evidence of polymer formation from these reactions. Structural determination of the product(s), however, remains elusive.
Friedel-crafts reactions of bis(trimethylsilyl)polyynes with acyl chlorides; a useful route to terminal-alkynyl ketones
Walton,Waugh
, p. 45 - 56 (2007/10/05)
Bis(trimethylsilyl)acetylenes, Me3Si(CC)nSiMe3, react with acyl chloride-aluminium chloride complexes, XC6H4 COCl·AlCl3 in methylene chloride at 0-20° to form the corresponding ketones XC6H4CO(CC)nSiMe3 in excellent (n = 1) or moderate (n = 2, 4) yield. Treatment of the products with aqueous methanolic borax results in virtually quantitative liberation of the terminal alkynyl ketones XC6H4CO(CC)nH. The method provides the first practical route to the ketotetraynes (n = 4) and usefully supplements existing oxidative methods for keto-monoyne and -diyne synthesis. The oxalyl chloride-aluminium chloride complex reacts with Me3SiCCSiMe3 to give the novel silyl-substituted heterocycle (I): {A figure is presented}.
