Probing Hydrophilic Interface of Solid/liquid-water by Nanoultrasonics

Overview

Journal Sci Rep

Specialty Science

Date 2014 Sep 2

PMID 25176017

Citations 11

Authors

Pierre-Adrien Mante

Chien-Cheng Chen

Yu-Chieh Wen

Hui-Yuan Chen

Szu-Chi Yang

Yu-Ru Huang

I-Ju Chen

Yun-Wen Chen

Vitalyi Gusev

Miin-Jang Chen

Jer-Lai Kuo

Jinn-Kong Sheu

Chi-Kuang Sun

Affiliations

Soon will be listed here.

Abstract

Despite the numerous devoted studies, water at solid interfaces remains puzzling. An ongoing debate concerns the nature of interfacial water at a hydrophilic surface, whether it is more solid-like, ice-like, or liquid-like. To answer this question, a complete picture of the distribution of the water molecule structure and molecular interactions has to be obtained in a non-invasive way and on an ultrafast time scale. We developed a new experimental technique that extends the classical acoustic technique to the molecular level. Using nanoacoustic waves with a femtosecond pulsewidth and an ångström resolution to noninvasively diagnose the hydration structure distribution at ambient solid/water interface, we performed a complete mapping of the viscoelastic properties and of the density in the whole interfacial water region at hydrophilic surfaces. Our results suggest that water in the interfacial region possesses mixed properties and that the different pictures obtained up to now can be unified. Moreover, we discuss the effect of the interfacial water structure on the abnormal thermal transport properties of solid/liquid interfaces.

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