Entropy-Driven Cooperativity in the Guest Binding of an Octaphosphonate Bis-cavitand.
Daisuke ShimoyamaTakeharu HainoPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2020)
Uncommon entropy-driven cooperativity is reported in the guest binding of an octaphosphonate bis-cavitand. Isothermal titration calorimetry determined the thermodynamic parameters for the 1:2 host-guest binding of bis-cavitands with ammonium guests in methanol, ethanol, 2-propanol, and chloroform. Chloroform drove uncommon entropy-driven cooperative binding, whereas the alcohols resulted in enthalpy-driven noncooperative binding. 1 H NMR studies revealed that each cavity contained six water molecules in chloroform, which were liberated on guest binding. The enthalpy-entropy compensation relationship produced a large positive intrinsic entropy in chloroform, which implies that water desolvation causes a considerable entropic gain by paying an enthalpic penalty due to breaking the hydrogen-bonding networks of the water clusters.