基于镧系元素的分子簇聚集体：具有纳米尺寸{Ln}化合物的光学条形码和白光发射

Lanthanide-Based Molecular Cluster-Aggregates: Optical Barcoding and White-Light Emission with Nanosized {Ln } Compounds.

作者信息

Gálico Diogo A, Kitos Alexandros A, Ovens Jeffrey S, Sigoli Fernando A, Murugesu Muralee

机构信息

Department of Chemistry and Biomolecular Sciences, University of Ottawa, 10 Marie Curie, Ottawa, Ontario, K1N 6N5, Canada.

X-Ray Core Facility, University of Ottawa, 150 Louis Pasteur, Ottawa, Ontario, K1N 6N5, Canada.

出版信息

Angew Chem Int Ed Engl. 2021 Mar 8;60(11):6130-6136. doi: 10.1002/anie.202013867. Epub 2021 Jan 27.

DOI:10.1002/anie.202013867

PMID:33296546

Abstract

Counterfeit goods represent a major problem to companies, governments, and customers, affecting the global economy. In order to protect the authenticity of products and documents, optical anti-counterfeit technologies have widely been employed via the use of discrete molecular species, extended metal-organic frameworks (MOFs), and nanoparticles. Herein, for the first time we demonstrate the potential use of molecular cluster-aggregates (MCA) as optical barcodes via composition and energy transfer control. The tuneable optical properties for the [Ln (chp) (CO ) (NO ) (H O) ], where chp =deprotonated 6-chloro-2-pyridinol, allow the fine control of the emission colour output, resulting in high-security level optical labelling with a precise read-out. Moreover, a unique tri-doped composition of Gd , Tb , and Eu led to MCAs with white-light emission. The presented methodology is a unique approach to probe the effect of composition control on the luminescent properties of nanosized molecular material.

摘要

假冒商品对公司、政府和消费者来说是一个重大问题，影响着全球经济。为了保护产品和文件的真实性，光学防伪技术已通过使用离散分子物种、扩展金属有机框架（MOF）和纳米颗粒而得到广泛应用。在此，我们首次通过组成和能量转移控制证明了分子簇聚集体（MCA）作为光学条形码的潜在用途。对于[Ln (chp) (CO ) (NO ) (H O) ]（其中chp =去质子化的6-氯-2-吡啶醇），其可调谐光学性质允许对发射颜色输出进行精细控制，从而实现具有精确读出的高安全级光学标记。此外，Gd、Tb和Eu的独特三掺杂组成导致MCA发出白光。所提出的方法是一种独特的方法，用于探究组成控制对纳米级分子材料发光性质的影响。

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基于镧系元素的分子簇聚集体：具有纳米尺寸{Ln}化合物的光学条形码和白光发射

Lanthanide-Based Molecular Cluster-Aggregates: Optical Barcoding and White-Light Emission with Nanosized {Ln } Compounds.

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