Water-based flexographic ink using chalcones exhibiting aggregation-induced enhanced emission for anti-counterfeit applications

Water-based flexographic ink using chalcones exhibiting aggregation-induced enhanced emission for anti-counterfeit applications

[Display omitted] •Design, Synthesis and characterization of pyrene based AIEE-active chalcone pigment.•Formulation of water-based flexographic printing ink.•Prints with superior gloss, light-fastness, abrasion resistance and colorimetric values.•Chalcone pigment for security printing, labelling and...

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Bibliographic Details
Published in:Journal of molecular liquids Vol. 344; p. 117974
Main Authors: R.S., Bhagya, Sunil, Dhanya, Shetty, Prakasha, Kagatikar, Sneha, Wagle, Shivananda, Melroy Lewis, Prinston, Kulkarni, Suresh D, Kekuda, Dhananjaya
Format: Journal Article
Language:English
Published: Elsevier B.V 15-12-2021
Subjects:
Anticounterfeiting
Chalcone
Fluorescence
Security printing
Water-based flexographic ink
Fluorescence
Security printing
Water-based flexographic ink
Chalcone
Anticounterfeiting
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Summary:[Display omitted] •Design, Synthesis and characterization of pyrene based AIEE-active chalcone pigment.•Formulation of water-based flexographic printing ink.•Prints with superior gloss, light-fastness, abrasion resistance and colorimetric values.•Chalcone pigment for security printing, labelling and anti-counterfeiting applications. In pursuit of fluorescent pigments, a pyrene-based chalcone 1-(4-chlorophenyl)-3-(3a1,6,8a,10a-tetrahydropyrene-1-yl)prop-2-en-1-one (CPP), which exhibited aggregation-induced enhanced emission was synthesized. Water-based eco-friendly flexographic inks were formulated using CPP (in batch ink) and Luminous yellow RG-3 (in standard ink) as pigments. The batch and standard inks were coated on security paper and printed on security and packaging papers as well as boards. The printed substrates displayed yellow fluorescence upon excitation under UV light. The gloss, light-fastness, abrasion resistance and colorimetric values of the batch ink were superior to that of standard ink. The study revealed the potential of CPP as a fluorescent pigment for security printing applications, optical-electronic devices such as transistors, anti-counterfeiting labels, etc.
ISSN:0167-7322
1873-3166
DOI:10.1016/j.molliq.2021.117974