Gibb Corinne L D, Oertling Estelle E, Velaga Santhosh, Gibb Bruce C
Department of Chemistry, Tulane University, New Orleans, Louisiana 70118, United States.
J Phys Chem B. 2015 Apr 30;119(17):5624-38. doi: 10.1021/acs.jpcb.5b01708. Epub 2015 Apr 16.
Isothermal titration calorimetry was used to probe how salts influence the thermodynamics of binding of guests to cavitand 1. Studies involved six Hofmeister salts covering the range of salting-in to strongly salting-out. The latter were found to reduce affinity. The cause of this was competitive binding of the weakly solvated anion to the hydrophobic pocket of the host. At the other extreme of the Hofmeister series, salts increased guest affinity. Two factors for this were evident. At low concentrations the data fitted a previously reported model that accounts for cation condensation to the outer carboxylates of the host (Carnagie, R.; Gibb, C. L. D.; Gibb, B. C., Angew. Chem., Int. Ed. 2014, 53 (43), 11498-11500). At higher concentrations, an as of yet unidentified contribution was observed that was noted to be guest dependent. Midcontinuum salts such as NaClO3 were found to enhance affinity at low concentrations, but weaken it at high concentrations; a nonmonotonic trend attributed to the aforementioned competing phenomena. In combination with previous work, the data presented here reveal that the Hofmeister effect evident in this system can be mostly attributed to solute-salt interactions.
等温滴定量热法用于探究盐如何影响客体与穴状配体1结合的热力学。研究涉及六种霍夫迈斯特盐,涵盖了盐溶到强盐析的范围。发现后者会降低亲和力。其原因是弱溶剂化阴离子与主体疏水口袋的竞争性结合。在霍夫迈斯特系列的另一端,盐增加了客体亲和力。对此有两个明显因素。在低浓度下,数据符合先前报道过且能解释阳离子凝聚到主体外部羧酸盐上情况的模型(卡纳吉,R.;吉布,C. L. D.;吉布,B. C.,《德国应用化学》,国际版,2014年,53(43),11498 - 11500)。在较高浓度下,观察到一种尚未明确的贡献,且该贡献因客体而异。像氯酸钠这样处于中间范围的盐在低浓度下会增强亲和力,但在高浓度下会削弱亲和力;这种非单调趋势归因于上述竞争现象。结合之前的工作,此处给出的数据表明该体系中明显的霍夫迈斯特效应主要可归因于溶质 - 盐相互作用。
