Supramolecular Organization via Halogen Bonds

A. Sun; J. W. Lauher; N. S. Goroff

doi:10.1055/s-2006-941959

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Synfacts 2006(8): 0780-0780
DOI: 10.1055/s-2006-941959

Synthesis of Materials and Unnatural Products

Supramolecular Organization via Halogen Bonds

Contributor(s): Timothy M. Swager, Anne J. McNeil
A. Sun, J. W. Lauher, N. S. Goroff*
State University of New York,Stony Brook, USA

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Publication History

Publication Date:
21 July 2006 (online)

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Significance

Goroff and co-workers report that diiodobutadiyne in a co-crystal with nitrile-terminated oxalamides undergoes spontaneous 1,4-polymerization to form poly(diiododiacetylene) (PIDA). The authors have previously demonstrated that weak, non-covalent halogen bonds between Lewis acidic iodine and Lewis basic pyridine in combination with oxalamide hydrogen bonding are sufficient for solid-state organization (N. S. Goroff, S. M. Curtis, J. A. Webb, F. W. Fowler, J. W. Lauher Org. Lett. 2005, 7, 1891-1893). However, the critical C1-C4 distance (d ˜ 3.5 Å) and monomer repeat distance (r ˜ 4.9 Å) necessary for 1,4-polymerization were not realized. Here, the authors discover the optimal supramolecular scaffold by utilizing an iodine-nitrile halogen bond and altering the length of the oxalamide linker. For example, PIDA is not observed for a shorter oxalamide (n = 3). Consistent with the SEM images and X-ray diffraction measurements, the absorption spectra indicate an ordered polydiacetylene with fully planar, s-trans conformation.