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非晶态固态水膜中的输运:对自扩散系数的影响。

Transport in amorphous solid water films: implications for self-diffusivity.

作者信息

McClure Sean M, Barlow Evan T, Akin Minta C, Safarik Douglas J, Truskett Thomas M, Mullins C Buddie

机构信息

Institute for Theoretical Chemistry and Texas Materials Institute, Department of Chemical Engineering, University of Texas at Austin, Texas 78712-0321, USA.

出版信息

J Phys Chem B. 2006 Sep 14;110(36):17987-97. doi: 10.1021/jp063259y.

Abstract

Thermal desorption spectroscopy is employed to examine transport mechanisms in structured, nanoscale films consisting of labeled amorphous solid water (ASW, H(2)(18)O, H(2)(16)O) and organic spacer layers (CCl(4), CHCl(3)) prior to ASW crystallization (T approximately 150-160 K). Self-transport is studied as a function of both the ASW layer and the organic spacer layer film thickness, and the effectiveness of these spacer layers as a bulk diffusion "barrier" is also investigated. Isothermal desorption measurements of structured films are combined with gas uptake measurements (CClF(2)H) to investigate water self-transport and changes in ASW film morphology during crystallization and annealing. CCl(4) desorption is employed as a means to investigate the effects of ASW film thickness and heating schedule on vapor-phase transport. Combined, these results demonstrate that the interlayer mixing observed near T approximately 150-160 K is inconsistent with a mechanism involving diffusion through a dense phase; rather, we propose that intermixing occurs via vapor-phase transport through an interconnected network of cracks/fractures created within the ASW film during crystallization. Consequently, the self-diffusivity of ASW prior to crystallization (T approximately 150-160 K) is significantly smaller than that expected for a "fragile" liquid, indicating that water undergoes either a glass transition or a fragile-to-strong transition at a temperature above 160 K.

摘要

热脱附光谱法用于研究在非晶态固体水(ASW,H₂¹⁸O,H₂¹⁶O)和有机间隔层(CCl₄,CHCl₃)组成的结构化纳米级薄膜中,在ASW结晶之前(温度约150 - 160 K)的传输机制。研究了自传输与ASW层和有机间隔层薄膜厚度的函数关系,还研究了这些间隔层作为体扩散“屏障”的有效性。将结构化薄膜的等温脱附测量与气体吸收测量(CClF₂H)相结合,以研究水的自传输以及在结晶和退火过程中ASW薄膜形态的变化。采用CCl₄脱附来研究ASW薄膜厚度和加热程序对气相传输的影响。综合这些结果表明,在温度约150 - 160 K附近观察到的层间混合与涉及通过致密相扩散的机制不一致;相反,我们提出混合是通过气相传输发生的,通过在结晶过程中在ASW薄膜内形成的相互连接的裂缝/断裂网络。因此,结晶前(温度约150 - 160 K)ASW的自扩散系数明显小于“易碎”液体预期的值,这表明水在高于160 K的温度下经历了玻璃化转变或从易碎到坚固的转变。

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