Hosting of diamantane alcohols in water and hydrogen-bonded organic solvents: the (non-)classical hydrophobic effect

Usenik, Andrea; Alešković, Marija; Roca, Sunčica; Markuš, Iva; Šekutor, Marina; Požar, Josip (2023) Hosting of diamantane alcohols in water and hydrogen-bonded organic solvents: the (non-)classical hydrophobic effect. New Journal of Chemistry, 47 (40). pp. 18745-18755. ISSN 1144-0546

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Abstract

Understanding the forces governing hydrophobically driven inclusion provides a path for aimed utilization of non-polar synthons and provides insights into the related hydration thermodynamics. To shed light on the factors that determine the stability of complexes with large, rigid guests, we studied the temperature and the solvent effect on the hosting of diamantane alcohols with heptameric and octameric cyclodextrins and cucurbiturils. The smaller cyclodextrin was a more efficient binder of the explored guests, while inclusion within γ-CD was observed solely in water. The higher stability of β-CD complexes in this solvent (298 K) was due to the strongly exothermic, entropically opposed inclusion, whereas endothermic hosting of alcohols by γ-CD was observed in all cases except for diamantan-1-ol. The entropically more demanding dehydration of the β-CD cavity hence masks the positive entropy changes accompanying the removal of guest-hydrating water. A strong decrease in ΔrH°(T) for all studied systems was noticed in water. In the case of cyclodextrins, the phenomenon shifts the driving force from completely or predominantly classical towards non-classical. Conversely, due to the particularly poor structuring of cucurbituril-confined water, the binding remained essentially non-classical over the explored temperature range. Unlike complexation in water, the complexation in formamide and ethylene glycol was entirely enthalpy-driven and weakly temperature-dependent.

Item Type:	Article
Uncontrolled Keywords:	cyclodextrins; diamondoids; host-guest chemistry; hydrophobic effect; thermodynamics
Subjects:	NATURAL SCIENCES > Chemistry > Organic Chemistry
Divisions:	Division of Organic Chemistry and Biochemistry NMR Center
Projects:	Project title Project leader Project code Project type Koordinacijske reakcije makrocikličkih liganada u otopini-MacroSol Vladislav Tomišić IP-2019-04-9560 HRZZ Diamantoidni sustavi s heteroatomima – priprava i primjena u razvoju naprednih materijala-DiamMat Marina Šekutor UIP-2017-05-9653 HRZZ
Depositing User:	Lorena Palameta
Date Deposited:	14 Aug 2024 08:42
URI:	http://fulir.irb.hr/id/eprint/9014
DOI:	10.1039/d3nj03097k

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