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Chemically stable fluorescent anti-counterfeiting labels achieved by UV-induced photolysis of nanocellulose.


ABSTRACT: Carbon-based fluorescent security labels are effective methods to prevent counterfeiting. However, the properties of poor optical stability, complex and energy-consuming synthesis processes and weak bonding with substrates of carbon-based fluorescent materials limit their application prospects. Here, a novel in situ fluorescent patterning strategy is developed to achieve covert, chemically stable and solvent-tolerant cellulose-based security labels by UV exposure. The unsaturated double bonds as the origin of the fluorescence were generated during the photodegradation process under UV exposure. The fluorescent emission of cellulose-based materials reveals excellent stability under acidic, alkaline, reducing, oxidizing and non-polar solvent environments. These advantages give the cellulose nanofiber based security label fantastic potential applications.

SUBMITTER: Cheng H 

PROVIDER: S-EPMC9033396 | biostudies-literature | 2021 May

REPOSITORIES: biostudies-literature

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Chemically stable fluorescent anti-counterfeiting labels achieved by UV-induced photolysis of nanocellulose.

Cheng Hongrui H   Wei Xiaofeng X   Qiu Haijiang H   Wang Wensong W   Su Wenyue W   Zheng Yuanhui Y  

RSC advances 20210521 30


Carbon-based fluorescent security labels are effective methods to prevent counterfeiting. However, the properties of poor optical stability, complex and energy-consuming synthesis processes and weak bonding with substrates of carbon-based fluorescent materials limit their application prospects. Here, a novel <i>in situ</i> fluorescent patterning strategy is developed to achieve covert, chemically stable and solvent-tolerant cellulose-based security labels by UV exposure. The unsaturated double b  ...[more]

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