Ultrafast infrared spectroscopy of the O-D stretching mode of dilute HOD in H2O probes the local environment and the hydrogen bond network of confined water. The dynamics of water molecules confined in the interlayer space of montmorillonites (Mt) and in interaction with two types of cations (Li+ and Ca2+) but also with the negatively charged siloxane surface are studied. The results evidence that the OD vibrational dynamics is significantly slowed down in confined media: it goes from 1.7 Ps in neat water to 2.6 Ps in the case of Li+ cations with two water pseudolayers (2.2-2.3 Ps in the case of Ca2+ cations) and to 4.7 Ps in the case of Li+ cations with one water pseudolayer. No significant difference between the two cations is noticed. In this 2D confined geometry (the interlayer space being about 0.6 nm for two water pseudolayers), the relaxation time constants obtained are comparable to the ones measured in analogous concentrated salt solutions. Nevertheless, and in strong opposition to the observations performed in the liquid phase, anisotropy experiments evidence the absence of rotational motions on a 5 Ps time scale, proving that the hydrogen bond network in the interlayer space of the clay mineral is locked at this time scale.

• 出版日期2012-6-14
• 单位中国地震局