Dynamic metal-ligand coordination for multicolour and water-jet rewritable paper

Dynamic metal-ligand coordination for multicolour and water-jet rewritable paper

Rewritable paper has recently become prevalent in both academic research and marketplace due to the potential environmental advantages, including forest conservation, pollution reduction, energy saving and resource sustainability. However, its real-life applications are limited by a lack of effectiv...

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Bibliographic Details
Published in:Nature communications Vol. 9; no. 1; p. 3
Main Authors: Ma, Yun, She, Pengfei, Zhang, Kenneth Yin, Yang, Huiran, Qin, Yanyan, Xu, Zihan, Liu, Shujuan, Zhao, Qiang, Huang, Wei
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 09-01-2018
Nature Publishing Group
Nature Portfolio
Subjects:
140/131
140/58
639/301/1005/1008
639/638/263
639/638/298/398
639/638/911
Coordination compounds
Energy conservation
Forest conservation
Forest management
Humanities and Social Sciences
Jet printing
Ligands
Metals
multidisciplinary
Pollution control
Printing
Salts
Science
Science (multidisciplinary)
Sustainability
Water pollution
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Summary:Rewritable paper has recently become prevalent in both academic research and marketplace due to the potential environmental advantages, including forest conservation, pollution reduction, energy saving and resource sustainability. However, its real-life applications are limited by a lack of effective strategy to realize multicolour and water-jet printing on rewritable paper with long legible image-lasting times. Herein, we report an effective strategy to construct rewritable paper based on colour or luminescence switching induced by dynamic metal–ligand coordination. This type of rewritable paper can be conveniently utilized for multicolour water-jet printing by using aqueous solutions containing different metal salts as ink. In addition, the printed images on the water-jet rewritable paper can be retained for a long time (> 6 months), which shows great progress compared to previous work. We believe that this type of rewritable paper could be considered as a prototype for multicolour water-jet printing to meet the practical needs. Rewritable paper is environmentally favourable, but its practical realization is stifled by limited ink colour versatility and poor image retention times. Here, the authors exploit the relatively stable but reversible nature of metal–organic coordination bonds to produce long-lasting and multicoloured inks for rewritable paper.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-017-02452-w