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- Title
Thioamides: Versatile Bonds To Induce Directional and Cooperative Hydrogen Bonding in Supramolecular Polymers.
- Authors
Mes, Tristan; Cantekin, Seda; Balkenende, Dirk W. R.; Frissen, Martijn M. M.; Gillissen, Martijn A. J.; De Waal, Bas F. M.; Voets, Ilja K.; Meijer, E. W.; Palmans, Anja R. A.
- Abstract
The amide bond is a versatile functional group and its directional hydrogen-bonding capabilities are widely applied in, for example, supramolecular chemistry. The potential of the thioamide bond, in contrast, is virtually unexplored as a structuring moiety in hydrogen-bonding-based self-assembling systems. We report herein the synthesis and characterisation of a new self-assembling motif comprising thioamides to induce directional hydrogen bonding. N, N′, N′′-Trialkylbenzene-1,3,5-tris(carbothioamide)s (thioBTAs) with either achiral or chiral side-chains have been readily obtained by treating their amide-based precursors with P2S5. The thioBTAs showed thermotropic liquid crystalline behaviour and a columnar mesophase was assigned. IR spectroscopy revealed that strong, three-fold, intermolecular hydrogen-bonding interactions stabilise the columnar structures. In apolar alkane solutions, thioBTAs self-assemble into one-dimensional, helical supramolecular polymers stabilised by three-fold hydrogen bonding. Concentration- and temperature-dependent self-assembly studies performed by using a combination of UV and CD spectroscopy demonstrated a cooperative supramolecular polymerisation mechanism and a strong amplification of supramolecular chirality. The high dipole moment of the thioamide bond in combination with the anisotropic shape of the resulting cylindrical aggregate gives rise to sufficiently strong depolarised light scattering to enable depolarised dynamic light scattering (DDLS) experiments in dilute alkane solution. The rotational and translational diffusion coefficients, Dtrans and Drot, were obtained from the DDLS measurements, and the average length, L, and diameter, d, of the thioBTA aggregates were derived ( L=490 nm and d=3.6 nm). These measured values are in good agreement with the value Lw=755 nm obtained from fitting the temperature-dependent CD data by using a recently developed equilibrium model. This experimental verification validates our common practice for determining the length of BTA-based supramolecular polymers from model fits to experimental CD data. The ability of thioamides to induce cooperative supramolecular polymerisation makes them effective and broadly applicable in supramolecular chemistry.
- Subjects
THIOAMIDES; HYDROGEN bonding; SUPRAMOLECULAR polymers; ORGANOSULFUR compounds; ANILIDES
- Publication
Chemistry - A European Journal, 2013, Vol 19, Issue 26, p8642
- ISSN
0947-6539
- Publication type
Article
- DOI
10.1002/chem.201204273