离子型表面活性剂对深埋疏油界面的修饰。

Modification of deeply buried hydrophobic interfaces by ionic surfactants.

机构信息

Physics Department and Institute of Nanotechnology and Advanced Materials, Bar-llan University, Ramat-Gan 52900, Israel.

出版信息

Proc Natl Acad Sci U S A. 2011 Apr 5;108(14):5522-5. doi: 10.1073/pnas.1014100108. Epub 2011 Mar 21.

DOI:10.1073/pnas.1014100108

PMID:21422287

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3078380/

Abstract

Hydrophobicity, the spontaneous segregation of oil and water, can be modified by surfactants. The way this modification occurs is studied at the oil-water interface for a range of alkanes and two ionic surfactants. A liquid interfacial monolayer, consisting of a mixture of alkane molecules and surfactant tails, is found. Upon cooling, it freezes at T(s), well above the alkane's bulk freezing temperature, T(b). The monolayer's phase diagram, derived by surface tensiometry, is accounted for by a mixtures-based theory. The monolayer's structure is measured by high-energy X-ray reflectivity above and below T(s). A solid-solid transition in the frozen monolayer, occurring approximately 3 °C below T(s), is discovered and tentatively suggested to be a rotator-to-crystal transition.

摘要

疏水性，即油和水的自发分离，可以通过表面活性剂来改变。这种改性的方式在一系列烷烃和两种离子型表面活性剂的油水界面进行研究。发现了一种由烷烃分子和表面活性剂尾部组成的液态界面单层。在冷却过程中，它在 T(s)处冻结，远高于烷烃的体相冻结温度 T(b)。通过表面张力法得到的单层相图由基于混合物的理论解释。通过高能 X 射线反射率在 T(s)以上和以下测量单层的结构。在 T(s)以下约 3°C 处发现了冷冻单层中的固态-固态转变，并初步推测其为旋转体-晶体转变。

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离子型表面活性剂对深埋疏油界面的修饰。

Modification of deeply buried hydrophobic interfaces by ionic surfactants.

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离子型表面活性剂对深埋疏油界面的修饰。

Modification of deeply buried hydrophobic interfaces by ionic surfactants.

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出版信息