Experimental and Computational Approach to Studying Supramolecular Structures in Propanol and Its Halogen Derivatives.
Kinga ŁucakAnna Z SzeremetaRoman WrzalikJoanna GrelskaKarolina JurkiewiczNatalia SoszkaBarbara HachułaDaniel KramarczykKatarzyna GrzybowskaBeibei YaoKamil KaminskiSebastian PawlusPublished in: The journal of physical chemistry. B (2023)
A series of four alcohols, n -propanol and its halogen (Cl, Br, and I) derivatives, were selected to study the effects of variation in polarity and halogen-driven interactions on the hydrogen bonding pattern and supramolecular structure by means of experimental and theoretical methods. It was demonstrated on both grounds that the average strength of H-bonds remains the same but dissociation enthalpy, the size of molecular nanoassemblies, as well as long-range correlations between dipoles vary with the molecular weight of halogen atom. Further molecular dynamics simulations indicated that it is connected to the variation in the molecular order introduced by specific halogen-based hydrogen bonds and halogen-halogen interactions. Our results also provided important experimental evidence supporting the assumption of the transient chain model on the molecular origin of the structural process in self-assembling alcohols.