期刊
MOLECULAR SIMULATION
卷 49, 期 12, 页码 1185-1194出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/08927022.2020.1764951
关键词
Titanium dioxide; vibrational spectra; molecular dynamics
Classical molecular dynamic simulations were used to investigate the dynamic properties of water layers on anatase and rutile surfaces. The results showed distinct layering patterns with inhibited molecular motion and enhanced or diminished vibrational modes. This effect appears to be mediated by the coupling of observed layers with under-coordinated surface oxygen atoms and may play a role in the behavior of water at TiO2 interfaces.
Classical molecular dynamic studies of anatase and rutile surfaces immersed in bulk SPC/fw water were performed to investigate the dynamic properties of the semi-mobile water layers formed thereon. Spectral analysis techniques were used to characterise and interpret the observed dynamical behaviour, including the use of frequency domain cross-correlation measures. Both surfaces exhibit distinct layering patterns, wherein molecular motion is inhibited and certain molecular vibrational modes are augmented or diminished. There is evidence that this effect is mediated by coupling of vibrational modes between the observed layers and under-coordinated surface oxygen (O-br) atoms and may play a role in the fascinating behaviour of water at TiO2 interfaces.
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