Rodriguez Vincent, Verreault Dominique
Institut des Sciences Moléculaires, Univ. Bordeaux, CNRS, Bordeaux INP, UMR 5255, F-33405 Talence, France.
J Phys Chem Lett. 2024 Jun 20;15(24):6334-6342. doi: 10.1021/acs.jpclett.4c01119. Epub 2024 Jun 10.
Nonlinear chiroptical methods like hyper-Rayleigh optical activity (HROA) and third-harmonic optical activity (THOA) have a great potential in characterizing structure-chiroptical properties of molecular systems. Here, with these methods, we bring for the first time experimental and theoretical evidence of nonlinear chiroptical differences between enantiomers of simple chiral molecules, using exclusively linearly polarized incident light. The origin of these unexpected nonlinear chiroptical contributions comes from a new nonlinear source term of the form β(∇×), which is a bilinear coupling term including the linear chirality parameter, β, and the curl of the nonlinear induced electric dipole moment, , both involving dipolar magnetic interactions. Through a simple nonlinear chiroptical model that we propose, we show that specific nonlinear chiroptical parameters can be quantified, thus bringing new insights into stereochemical and electronic structural features of molecular and supramolecular systems.
诸如超瑞利光学活性(HROA)和三次谐波光学活性(THOA)等非线性手性光学方法在表征分子体系的结构-手性光学性质方面具有巨大潜力。在此,借助这些方法,我们首次利用仅线性偏振的入射光,给出了简单手性分子对映体之间非线性手性光学差异的实验和理论证据。这些意外的非线性手性光学贡献的起源来自一个新的形式为β(∇×)的非线性源项,它是一个双线性耦合项,包括线性手性参数β和非线性诱导电偶极矩的旋度,二者均涉及偶极磁相互作用。通过我们提出的一个简单的非线性手性光学模型,我们表明特定的非线性手性光学参数可以被量化,从而为分子和超分子体系的立体化学和电子结构特征带来新的见解。