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Ligand‐induced chirality and optical activity in semiconductor nanocrystals: theory and applications

手性(物理) 圆二色性 纳米技术 纳米医学 量子点 分子 纳米光子学 纳米材料 材料科学 对映选择合成 纳米生物技术 小分子 纳米颗粒 化学 物理 立体化学 对称性破坏 手征对称破缺 量子力学 催化作用 有机化学 生物化学 Nambu–Jona Lasinio模型
作者
Vera Kuznetsova,Yulia Gromova,Marina Martínez‐Carmona,Finn Purcell‐Milton,Elena V. Ushakova,Sergei A. Cherevkov,В. Г. Маслов,Yurii K. Gun’ko
出处
期刊:Nanophotonics [De Gruyter]
卷期号:10 (2): 797-824 被引量:83
标识
DOI:10.1515/nanoph-2020-0473
摘要

Abstract Chirality is one of the most fascinating occurrences in the natural world and plays a crucial role in chemistry, biochemistry, pharmacology, and medicine. Chirality has also been envisaged to play an important role in nanotechnology and particularly in nanophotonics, therefore, chiral and chiroptical active nanoparticles (NPs) have attracted a lot of interest over recent years. Optical activity can be induced in NPs in several different ways, including via the direct interaction of achiral NPs with a chiral molecule. This results in circular dichroism (CD) in the region of the intrinsic absorption of the NPs. This interaction in turn affects the optical properties of the chiral molecule. Recently, studies of induced chirality in quantum dots (QDs) has deserved special attention and this phenomenon has been explored in detail in a number of important papers. In this article, we review these important recent advances in the preparation and formation of chiral molecule–QD systems and analyze the mechanisms of induced chirality, the factors influencing CD spectra shape and the intensity of the CD, as well as the effect of QDs on chiral molecules. We also consider potential applications of these types of chiroptical QDs including sensing, bioimaging, enantioselective synthesis, circularly polarized light emitters, and spintronic devices. Finally, we highlight the problems and possibilities that can arise in research areas concerning the interaction of QDs with chiral molecules and that a mutual influence approach must be taken into account particularly in areas, such as photonics, cell imaging, pharmacology, nanomedicine and nanotoxicology.
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