腈类振动寿命作为局部电场的探针

Nitrile Vibrational Lifetimes as Probes of Local Electric Fields.

作者信息

Kocheril Philip A, Wang Haomin, Lee Dongkwan, Naji Noor, Wei Lu

机构信息

Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, California 91125, United States.

出版信息

J Phys Chem Lett. 2024 May 16;15(19):5306-5314. doi: 10.1021/acs.jpclett.4c00597. Epub 2024 May 9.

DOI:10.1021/acs.jpclett.4c00597

PMID:38722706

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11486452/

Abstract

Optical measurements of electric fields have wide-ranging applications in the fields of chemistry and biology. Previously, such measurements focused on shifts in intensity or frequency. Here, we show that nitrile vibrational lifetimes can report local electric fields through ultrasensitive picosecond mid-infrared-near-infrared double-resonance fluorescence spectro-microscopy on Rhodamine 800. Using a robust convolution fitting approach, we observe that the nitrile vibrational lifetimes are strongly linearly correlated ( = 0.841) with solvent reaction fields. Supported by density functional theory, we rationalize this trend through a doorway model of intramolecular vibrational energy redistribution. This work provides new fundamental insights into the nature of vibrational energy flow in large polyatomic molecular systems and establishes a theoretical basis for electric field sensing with vibrational lifetimes, offering a new experimental dimension for probing intracellular electrostatics.

摘要

电场的光学测量在化学和生物学领域有着广泛的应用。以前，此类测量主要集中在强度或频率的变化上。在此，我们表明，通过对罗丹明800进行超灵敏的皮秒中红外-近红外双共振荧光光谱显微镜观察，腈基振动寿命可以反映局部电场。使用一种稳健的卷积拟合方法，我们观察到腈基振动寿命与溶剂反应场呈强线性相关（ = 0.841）。在密度泛函理论的支持下，我们通过分子内振动能量重新分布的门道模型来解释这一趋势。这项工作为大型多原子分子系统中振动能量流动的本质提供了新的基本见解，并为利用振动寿命进行电场传感建立了理论基础，为探测细胞内静电学提供了一个新的实验维度。

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