Overview
ABSTRACT
Luminescent hetero-lanthanides coordination polymers are one-, two- or three-dimensional crystalline structures in which several different lanthanide ions coexist and are linked together by organic ligands. This class of compounds, in the near future, could be used to mark plastics to improve their recyclability. This article details the structural and optical characteristics of hetero-lanthanide coordination polymers. It presents the current state of knowledge and the efforts that still need to be made before these compounds can be used to optimize the sorting of plastic waste.
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Read the articleAUTHORS
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Olivier GUILLOU: University Professor - University of Rennes, INSA Rennes, UMR CNRS 6226 "Institut des Sciences Chimiques de Rennes", F-35708 Rennes - Institut Universitaire de France, 1 rue Descartes, F-75005 Paris
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Carole DAIGUEBONNE: University Professor - University of Rennes, INSA Rennes, UMR CNRS 6226 "Institut des Sciences Chimiques de Rennes", F-35708 Rennes
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Chloé BLAIS: Teacher-researcher - University of Rennes, INSA Rennes, UMR CNRS 6226 "Institut des Sciences Chimiques de Rennes", F-35708 Rennes - Mme Christine Hénaff and M. Aurélien Chang are thanked for their review of the manuscript.
INTRODUCTION
Counterfeiting is an ever-increasing phenomenon, benefiting from the globalization of trade and the expansion of e-commerce. It is a threat not only to the economy, but also to public health and consumer safety (the WHO estimates that in Africa, 100,000 deaths a year are attributable to the use of counterfeit medicines, for example) . Dozens of technologies have been developed to protect against them. All have advantages and disadvantages, and each is relevant to a given market.
Heterolanthanide coordination polymers, which can be used as luminescent markers, are particularly well suited to the in-mold marking of materials where the maximum temperature reached during the manufacturing process, and the temperature of use, do not exceed a few hundred degrees. These markers can be prepared as microcrystalline powders and dispersed in the material to be marked, or as colloidal suspensions that can be used to mark inks or technical liquids.
These compounds could also find applications in the field of marking plastic waste, to ensure sorting and thus optimize recycling. For this second application, the luminescence of the markers needs to be intense enough for them to be detected, and identified, on a high-speed sorting line. Given the huge quantities of plastic produced worldwide, of which only a small proportion is recycled today, this potential application is a challenge today.
To optimize luminescence properties, it is necessary to master the intermetallic energy transfer phenomena that govern them, within coordination polymers. The aim of this article is to review the current state of knowledge concerning heterolanthanide coordination polymers and their luminescence properties.
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KEYWORDS
Traceability | luminescence | lanthanides | Coordination polymers
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Functional materials - Bio-based materials
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Luminescent heterolanthanide coordination polymers
Bibliography
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Standards and norms
- Chemical analysis of magnesium and its alloys – Rare earth assay – Gravimetric method. - ISO 2355 - 1972
Regulations
Law no. 2020-105 of February 10, 2020 on the fight against waste and the circular economy. Journal Officiel de la République Française, February 11, 2020.
Commission Regulation (EU) 2022/1616 of September 15, 2022 on recycled plastic materials and articles intended to come into contact with foodstuffs and repealing Regulation (EC) No 282/2008. Official Journal of the European Union, L. 243/3....
Patents
Cerium electrolytic oxidation process and electrolysis unit for its implementation CA2582058.
Method of marking a material comprising at least one mineral matrix and corresponding material FR2906393.
Method of marking materials based on thermoplastic or thermosetting organic polymeric matrices FR2917226
Powder formed from core-shell particles comprising...
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