Circularly Polarized Microscopy of Thin Films of Chiral Organic Dyes

Chemical & Biomedical Imaging Pub Date : 2023-06-09 DOI:10.1021/cbmi.3c00049

Andrea Taddeucci, Francesco Zinna, Giuliano Siligardi and Lorenzo Di Bari*,

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Abstract

We introduce an optical microscopy technique, circularly polarized microscopy or CPM, able to afford spatially resolved electronic circular dichroism (ECD) of thin films of chiral organic semiconductors through a commercial microscope equipped with a camera and inexpensive optics. Provided the dichroic ratio is sufficiently large, the spatial resolution is on the order of the μm and is only limited by the magnification optics integrated in the microscope. We apply CPM to thin films of small chiral π-conjugated molecules, which gave rise to ordered aggregates in the thin layer. Primarily, conventional ECD can reveal and characterize chiral supramolecular structures and possible interferences between anisotropic properties of solid samples; however, it cannot generally account for the spatial distribution of such properties. CPM offers a characterization of supramolecular chirality and of commingling polarization anisotropies of the material, describing their local distribution. To validate CPM, we demonstrated that it can be adopted to quantify the local ECD of samples characterized by intense signals, virtually on any standard optical microscope.

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手性有机染料薄膜的圆偏振显微镜研究

我们介绍了一种光学显微镜技术，圆偏振显微镜或CPM，能够通过配备相机和廉价光学器件的商用显微镜提供手性有机半导体薄膜的空间分辨电子圆二色性（ECD）。只要二向色比足够大，空间分辨率就在μm的数量级，并且仅受集成在显微镜中的放大光学器件的限制。我们将CPM应用于小手性π-共轭分子的薄膜，这在薄膜中产生了有序的聚集体。首先，常规ECD可以揭示和表征手性超分子结构以及固体样品各向异性性质之间可能存在的干扰；然而，它通常不能解释这种性质的空间分布。CPM提供了材料的超分子手性和混合极化各向异性的表征，描述了它们的局部分布。为了验证CPM，我们证明了它可以用于量化以强烈信号为特征的样本的局部ECD，实际上是在任何标准光学显微镜上。

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来源期刊

Chemical & Biomedical Imaging 化学与生物成像-

CiteScore

1.00

自引率

0.00%

发文量

期刊介绍： Chemical & Biomedical Imaging is a peer-reviewed open access journal devoted to the publication of cutting-edge research papers on all aspects of chemical and biomedical imaging. This interdisciplinary field sits at the intersection of chemistry physics biology materials engineering and medicine. The journal aims to bring together researchers from across these disciplines to address cutting-edge challenges of fundamental research and applications.Topics of particular interest include but are not limited to:Imaging of processes and reactionsImaging of nanoscale microscale and mesoscale materialsImaging of biological interactions and interfacesSingle-molecule and cellular imagingWhole-organ and whole-body imagingMolecular imaging probes and contrast agentsBioluminescence chemiluminescence and electrochemiluminescence imagingNanophotonics and imagingChemical tools for new imaging modalitiesChemical and imaging techniques in diagnosis and therapyImaging-guided drug deliveryAI and machine learning assisted imaging