Picking on Carbonate: Kinetic Selectivity in the Encapsulation of Anions
Han Xie, Vageesha W. Liyana Gunawardana, Tyler J. Finnegan, William Xie, Jovica D. Badjić
Abstract
Abstract Supramolecular hosts bind to inorganic anions at a fast rate and select them in proportion with thermodynamic stability of the corresponding [anion⊂host] complexes, forming in a reversible manner. In this study, we describe the action of hexapodal capsule 1 and its remarkable ability to select anions based on a large span of rates by which they enter this host. The thermodynamic affinity of 1 toward eighteen anions extends over eight orders of magnitude (0< K a <10 8 M −1 ; 1 H NMR spectroscopy). The capsule would retain CO 3 2− ( K a =10 7 M −1 ) for hours in the presence of eleven competing anions, including stronger binding SO 4 2− , HAsO 4 2− and HPO 4 2− ( K a =10 7 –10 8 M −1 ). The observed selection resulted from 1 possessing narrow apertures (ca. 3×6 Å) comparable in size to anions ( d =3.5–7.1 Å) slowing down the encapsulation to last from seconds to days. The unorthodox mode of action of 1 sets the stage for creating hosts that pick anions by their ability to access the host.