基于X射线拉曼的扩展X射线吸收精细结构观测液态水和冰中最近邻氧原子间距

Nearest-neighbor oxygen distances in liquid water and ice observed by x-ray Raman based extended x-ray absorption fine structure.

作者信息

Bergmann Uwe, Di Cicco Andrea, Wernet Philippe, Principi Emiliano, Glatzel Pieter, Nilsson Anders

机构信息

Stanford Synchrotron Radiation Laboratory, PO Box 20450 Stanford, California 94309, USA.

出版信息

J Chem Phys. 2007 Nov 7;127(17):174504. doi: 10.1063/1.2784123.

DOI:10.1063/1.2784123

PMID:17994824

Abstract

We report the nearest-neighbor oxygen-oxygen radial distribution function (NN O-O RDF) of room temperature liquid water and polycrystalline ice Ih (-16.8 degrees C) obtained by x-ray Raman based extended x-ray absorption fine structure (EXAFS) spectroscopy. The spectra of the two systems were taken under identical experimental conditions using the same procedures to obtain the NN O-O RDFs. This protocol ensured a measurement of the relative distance distribution with very small systematic errors. The NN O-O RDF of water is found to be more asymmetric (tail extending to longer distances) with longer average distance (2.81 A for water and 2.76 A for ice) but a slightly shorter peak position (2.70 A for water and 2.71 A for ice). The refinement also showed a small but significant contribution from the linear O-H-O multiple scattering signal. The high sensitivity to short range distances of the EXAFS probe will set further restrictions to the range of possible models of liquid water.

摘要

我们报告了通过基于X射线拉曼的扩展X射线吸收精细结构（EXAFS）光谱法获得的室温液态水和多晶冰Ih（-16.8摄氏度）的最近邻氧-氧径向分布函数（NN O-O RDF）。使用相同的程序在相同的实验条件下获取了这两个系统的光谱，以得到NN O-O RDF。该方案确保了相对距离分布的测量具有非常小的系统误差。发现水的NN O-O RDF更不对称（尾部延伸到更长的距离），平均距离更长（水为2.81 Å，冰为2.76 Å），但峰值位置略短（水为2.70 Å，冰为2.71 Å）。细化还显示出线性O-H-O多重散射信号的贡献虽小但很显著。EXAFS探针对短程距离的高灵敏度将对液态水可能的模型范围设置进一步限制。

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基于X射线拉曼的扩展X射线吸收精细结构观测液态水和冰中最近邻氧原子间距

Nearest-neighbor oxygen distances in liquid water and ice observed by x-ray Raman based extended x-ray absorption fine structure.

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