用光热微流体悬臂梁偏转光谱研究乙醇-水混合物的聚集机制。

Clustering mechanism of ethanol-water mixtures investigated with photothermal microfluidic cantilever deflection spectroscopy.

作者信息

Ghoraishi M S, Hawk J E, Phani Arindam, Khan M F, Thundat T

机构信息

Department of Chemical and Material Engineering, University of Alberta, Edmonton, Canada.

出版信息

Sci Rep. 2016 Apr 5;6:23966. doi: 10.1038/srep23966.

DOI:10.1038/srep23966

PMID:27046089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4820714/

Abstract

The infrared-active (IR) vibrational mode of ethanol (EtOH) associated with the asymmetrical stretching of the C-C-O bond in pico-liter volumes of EtOH-water binary mixtures is calorimetrically measured using photothermal microfluidic cantilever deflection spectroscopy (PMCDS). IR absorption by the confined liquid results in wavelength dependent cantilever deflections, thus providing a complementary response to IR absorption revealing a complex dipole moment dependence on mixture concentration. Solvent-induced blue shifts of the C-C-O asymmetric vibrational stretch for both anti and gauche conformers of EtOH were precisely monitored for EtOH concentrations ranging from 20-100% w/w. Variations in IR absorption peak maxima show an inverse dependence on induced EtOH dipole moment (μ) and is attributed to the complex clustering mechanism of EtOH-water mixtures.

摘要

使用光热微流体悬臂梁偏转光谱法（PMCDS），通过量热法测量了皮升体积的乙醇 - 水二元混合物中与C - C - O键不对称拉伸相关的乙醇（EtOH）的红外活性（IR）振动模式。受限液体的红外吸收导致悬臂梁的偏转与波长有关，从而提供了对红外吸收的补充响应，揭示了复偶极矩对混合物浓度的依赖性。对于乙醇浓度范围为20 - 100% w/w的情况，精确监测了乙醇反式和顺式构象异构体的C - C - O不对称振动拉伸的溶剂诱导蓝移。红外吸收峰最大值的变化显示出与诱导乙醇偶极矩（μ）呈反比关系，这归因于乙醇 - 水混合物的复杂聚集机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab5b/4820714/e371b7dfc62b/srep23966-f1.jpg

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用光热微流体悬臂梁偏转光谱研究乙醇-水混合物的聚集机制。

Clustering mechanism of ethanol-water mixtures investigated with photothermal microfluidic cantilever deflection spectroscopy.

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