Symmetry (Oct 2020)

Water Soluble Host–Guest Chemistry Involving Aromatic <i>N</i>-Oxides and Sulfonateresorcinarene

  • Kwaku Twum,
  • Nicholas Schileru,
  • Bianca Elias,
  • Jordan Feder,
  • Leena Yaqoo,
  • Rakesh Puttreddy,
  • Małgorzata M. Szczesniak,
  • Ngong Kodiah Beyeh

DOI
https://doi.org/10.3390/sym12111751
Journal volume & issue
Vol. 12, no. 11
p. 1751

Abstract

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Resorcinarenes decorated with sulfonate groups are anionic in nature and water soluble with a hydrophobic electron-rich interior cavity. These receptors are shown to bind zwitterionic aromatic mono-N-oxides and cationic di-N-oxide salts with varying spacer lengths. Titration data fit a 1:1 binding isotherm for the mono-N-oxides and 2:1 binding isotherm for the di-N-oxides. The first binding constants for the di-N-oxides (K1: 104 M−1) are higher compared to the neutral mono-N-oxide (K: 103 M−1) due to enhanced electrostatic attraction from a receptor with an electron-rich internal cavity and cationic and electron deficient N-oxides. The interaction parameter α reveals positive cooperativity for the di-N-oxide with a four-carbon spacer and negative cooperativity for the di-N-oxides that have spacers with more four carbons. This is attributed to shape complementarity between the host and the guest.

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