Kinetic Control in the Synthesis of a Möbius Tris((ethynyl)[5]helicene) Macrocycle Using Alkyne Metathesis

The synthesis of conjugated Möbius molecules remains elusive since twisted and macrocyclic structures are low-entropy species sporting their own synthetic challenges. Here we report the synthesis of a Möbius macrocycle in 84% yield via alkyne metathesis of 2,13-bis(propynyl)[5]helicene. MALDI-MS, NM...

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Veröffentlicht in:Journal of the American Chemical Society 2020-04, Vol.142 (14), p.6493-6498
Hauptverfasser: Jiang, Xing, Laffoon, Joshua D, Chen, Dandan, Pérez-Estrada, Salvador, Danis, Andrew S, Rodríguez-López, Joaquín, Garcia-Garibay, Miguel A, Zhu, Jun, Moore, Jeffrey S
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Sprache:eng
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Zusammenfassung:The synthesis of conjugated Möbius molecules remains elusive since twisted and macrocyclic structures are low-entropy species sporting their own synthetic challenges. Here we report the synthesis of a Möbius macrocycle in 84% yield via alkyne metathesis of 2,13-bis(propynyl)[5]helicene. MALDI-MS, NMR spectroscopy, and X-ray diffraction indicated a trimeric product of twofold symmetry with / configurations in the helicene subunits. Alternatively, a threefold-symmetric structure was determined by DFT calculations to be more thermodynamically stable, illustrating remarkable kinetic selectivity for this alkyne metathesis cyclooligomerization. Computational studies provided insight into the kinetic selectivity, demonstrating a difference of 15.4 kcal/mol between the activation barriers for the / and / diastereodetermining steps. Computational (ACID and EDDB) and experimental (UV-vis and fluorescence spectroscopy and cyclic voltammetry) studies revealed weak conjugation between the alkyne and adjacent helicene groups as well as the lack of significant global aromaticity. Separation of the and enantiomers was achieved via chiral HPLC at the analytical scale.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.0c01430