通过振动强耦合倾斜基态反应活性景观。

Tilting a ground-state reactivity landscape by vibrational strong coupling.

作者信息

Thomas A, Lethuillier-Karl L, Nagarajan K, Vergauwe R M A, George J, Chervy T, Shalabney A, Devaux E, Genet C, Moran J, Ebbesen T W

机构信息

University of Strasbourg, CNRS, ISIS and icFRC, 8 allée G. Monge, 67000 Strasbourg, France.

Braude College, Snunit Street 51, Karmiel 2161002, Israel.

出版信息

Science. 2019 Feb 8;363(6427):615-619. doi: 10.1126/science.aau7742. Epub 2019 Feb 7.

DOI:10.1126/science.aau7742

PMID:30733414

Abstract

Many chemical methods have been developed to favor a particular product in transformations of compounds that have two or more reactive sites. We explored a different approach to site selectivity using vibrational strong coupling (VSC) between a reactant and the vacuum field of a microfluidic optical cavity. Specifically, we studied the reactivity of a compound bearing two possible silyl bond cleavage sites-Si-C and Si-O, respectively-as a function of VSC of three distinct vibrational modes in the dark. The results show that VSC can indeed tilt the reactivity landscape to favor one product over the other. Thermodynamic parameters reveal the presence of a large activation barrier and substantial changes to the activation entropy, confirming the modified chemical landscape under strong coupling.

摘要

人们已经开发出许多化学方法，以在具有两个或更多个反应位点的化合物转化中生成特定产物。我们探索了一种不同的位点选择性方法，利用反应物与微流控光学腔的真空场之间的振动强耦合（VSC）。具体而言，我们研究了一种分别具有两个可能的硅烷基键裂解位点（Si-C和Si-O）的化合物的反应活性，该反应活性是三种不同振动模式在暗处的VSC的函数。结果表明，VSC确实可以改变反应活性态势，使一种产物比另一种产物更占优势。热力学参数揭示了存在较大的活化能垒和活化熵的实质性变化，证实了强耦合下化学态势的改变。

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通过振动强耦合倾斜基态反应活性景观。

Tilting a ground-state reactivity landscape by vibrational strong coupling.

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