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Molecular Mechanism of Acceleration and Retardation of Collective Orientation Relaxation of Water Molecules in Aqueous Solutions

Norifumi Moritsugu, Takafumi Nara, Shin-ichi Koda, Keisuke Tominaga, Shinji Saito

2020The Journal of Physical Chemistry B10 citationsDOI

Abstract

The collective orientation relaxation (COR) of water molecules in aqueous solutions is faster or slower with an increase in the concentration of the solutions than that in pure water; for example, acceleration (deceleration) of the COR is observed in a solution of sodium chloride (tetramethylammonium chloride) with increasing concentration. However, the molecular mechanism of the solution and concentration dependence of the relaxation time of the COR has not yet been clarified. We theoretically investigate the concentration dependence of the COR of water molecules in solutions of tetramethylammonium chloride (TMACl), guanidinium chloride (GdmCl), and sodium chloride (NaCl). Based on the Mori-Zwanzig equation, we identify two opposing factors that determine the COR of water molecules in any aqueous solution: the correlation of dipole moments and the single-molecule orientation relaxation. We reveal the molecular mechanism of the concentration dependence of the relaxation time of the COR in the TMACl, GdmCl, and NaCl solutions in terms of these two factors.

Topics & Concepts

TetramethylammoniumAqueous solutionChemistryRelaxation (psychology)ChlorideMoleculeDipoleSodiumMolecular dynamicsInorganic chemistryChemical physicsComputational chemistryPhysical chemistryIonOrganic chemistryPsychologySocial psychologySpectroscopy and Quantum Chemical StudiesMolecular spectroscopy and chiralityThermodynamic properties of mixtures
Molecular Mechanism of Acceleration and Retardation of Collective Orientation Relaxation of Water Molecules in Aqueous Solutions | Litcius