38997-95-4Relevant academic research and scientific papers
Masked Alkyne Equivalents for the Synthesis of Mechanically Interlocked Polyynes**
Gawel, Przemyslaw,Woltering, Steffen L.,Xiong, Yaoyao,Christensen, Kirsten E.,Anderson, Harry L.
, p. 5941 - 5947 (2021)
Polyyne polyrotaxanes, encapsulated cyclocarbon catenanes and other fascinating mechanically interlocked carbon-rich architectures should become accessible if masked alkyne equivalents (MAEs) can be developed that are large enough to prevent unthreading of a macrocycle, and that can be cleanly unmasked under mild conditions. Herein, we report the synthesis of a new bulky MAE based on t-butylbicyclo[4.3.1]decatriene. This MAE was used to synthesize a polyyne [2]rotaxane and a masked-polyyne [3]rotaxane by Cadiot–Chodkiewicz coupling. Glaser cyclo-oligomerization of the [2]rotaxane gave masked cyclocarbon catenanes. The unmasking behavior of the catenanes and rotaxanes was tested by photolysis at a range of UV wavelengths. Photochemical unmasking did not proceed cleanly enough to prepare extended encapsulated polyyne polyrotaxanes. We highlight the scope and challenges involved with this approach to interlocked carbon-rich architectures.
Aromatic Spiranes, XXII [1]: Preparation of Cyclopenteno-4,5-indan-1-one and 2-Carbomethoxy- and 4-Chloromethyl-indane as Synthones for the Syntheses of Anellated 2,2′-Spirobiindanone
Melmer,Neudeck
, p. 275 - 290 (1996)
The title compounds were prepared as follows: tert.-butyl-indane (10) was formylated to give a 72:28 mixture of the aldehydes 23a and 23b which were submitted to a Knoevenagel-Doebner condensation to afford the cinnamonic acids 24. From the mixture, the p
