无人之地的冰冻之水。

Freezing water in no-man's land.

机构信息

Institut für Physikalische Chemie, Universität zu Köln, Germany.

出版信息

Phys Chem Chem Phys. 2012 Apr 7;14(13):4505-16. doi: 10.1039/c2cp23116f. Epub 2012 Feb 22.

Abstract

We report homogeneous ice nucleation rates between 202 K and 215 K, thereby reducing the measurement gap that previously existed between 203 K and 228 K. These temperatures are significantly below the homogenous freezing limit, T(H)≈ 235 K for bulk water, and well within no-man's land. The ice nucleation rates are determined by characterizing nanodroplets with radii between 3.2 and 5.8 nm produced in a supersonic nozzle using three techniques: (1) pressure trace measurements to determine the properties of the flow as well as the temperature and velocity of the droplets, (2) small angle X-ray scattering (SAXS) to measure the size and number density of the droplets, and (3) Fourier Transform Infrared (FTIR) spectroscopy to follow the liquid to solid phase transition. Assuming that nucleation occurs throughout the droplet volume, the measured ice nucleation rates J(ice,V) are on the order of 10(23) cm(-3) s(-1), and agree well with published values near 203 K.

摘要

我们报告了 202 K 至 215 K 之间的同质冰成核率，从而缩小了以前在 203 K 至 228 K 之间存在的测量差距。这些温度明显低于同质冻结极限 T(H)≈235 K 的块状水，并且处于无人区。通过使用三种技术来表征在超音速喷嘴中产生的半径在 3.2 至 5.8 nm 之间的纳米液滴，确定了冰成核率：(1)压力轨迹测量法以确定流动特性以及液滴的温度和速度，(2)小角 X 射线散射 (SAXS) 以测量液滴的大小和数密度，以及 (3)傅里叶变换红外 (FTIR) 光谱法以跟踪液相到固相的转变。假设成核发生在整个液滴体积中，那么测量的冰成核率 J(ice,V)约为 10(23)cm(-3)s(-1)，并且与在 203 K 附近发表的值吻合良好。

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无人之地的冰冻之水。

Freezing water in no-man's land.

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