AI Article Synopsis
- Understanding water dynamics is crucial across various fields, and recent research has identified metastable states of water clusters in hydrophobic solvents using H nuclear magnetic resonance spectroscopy.
- The study utilized quasi-elastic neutron scattering to investigate the slow diffusion dynamics of these water clusters in benzene, revealing that their movement is significantly slower than that of bulk water.
- Even at temperatures above freezing (283-303 K), the dynamics of water clusters were found to be comparable to that of ice, showing a self-diffusion coefficient much lower than expected.
Article Abstract
Understanding certain behaviors of water, e.g., its dynamics, is extremely important in various fields. Recently, using H nuclear magnetic resonance spectroscopy, we have identified a metastable state of water molecules, i.e., water clusters, in hydrophobic solvents in addition to dissolved water molecules and a small bulk water domain. However, the low abundance of water clusters made observing their dynamics challenging. In this study, the dynamics of water clusters in benzene- were investigated by quasi-elastic neutron scattering measurements using the AGNES time-of-flight spectrometer of the Japan Research Reactor JRR-3. The diffusion dynamics of the hydrogen atoms were much slower than those of bulk water (with a self-diffusion coefficient of 1.15 × 10 m/s at 273 K) and even slower than the upper-limit dynamics at the observable scale (10 m/s). The dynamics of water clusters are slow, "like ice", even at 283-303 K, which is above the freezing point of water (273 K).
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| http://dx.doi.org/10.1021/acs.jpclett.3c02754 | DOI Listing |
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