Dual mode stimuli‐responsive color‐tunable transparent photoluminescent anticounterfeiting polycarbonate electrospun nanofibers embedded with lanthanide‐doped aluminate

Photochromism has been used as an attractive method to enhance the authentication of commercially available goods. It has been fundamental to enhance the engineering procedure of the authentication materials to introduce a mechanically reliable authentication nanofibrous film. In this context, we de...

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Published in:Journal of applied polymer science 2023-03, Vol.140 (12), p.n/a
Main Authors: Alatawi, Nada M., Alkhamis, Kholood M., Munshi, Alaa M., Althagafi, Ismail, El‐Metwaly, Nashwa M.
Format: Article
Language:English
Subjects:
Color
Electrospinning
Hydrophobicity
Materials science
Mechanical properties
Nanofibers
nanofibrous film
Nanoparticles
Photochromism
Photoluminescence
polycarbonate
Polycarbonate resins
Polymers
strontium aluminate
Ultraviolet radiation
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cited_by cdi_FETCH-LOGICAL-c2274-6cee15ebe122d2428f71e8d323d37a4b0ad50a918ef7d8cb580030bf4df10ced3
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container_title Journal of applied polymer science
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creator Alatawi, Nada M.
Alkhamis, Kholood M.
Munshi, Alaa M.
Althagafi, Ismail
El‐Metwaly, Nashwa M.
description Photochromism has been used as an attractive method to enhance the authentication of commercially available goods. It has been fundamental to enhance the engineering procedure of the authentication materials to introduce a mechanically reliable authentication nanofibrous film. In this context, we develop a mechanically reliable and photoluminescent electrospun nanofibrous polycarbonate film immobilized with lanthanide‐doped aluminate nanoparticles (NPs) by the electrospinning method for authentication purposes. The prepared composite film displayed photochromism by changing color from transparent under daytime light to green under ultraviolet light. To guarantee the transparency of the electrospun nanofibrous film, the strontium aluminate pigment must be presented in the nano‐scaled particle form to improve its distribution without forming aggregates in the electrospun polycarbonate nanofibrous bulk. The pigment‐polycarbonate nanofibers showed an emission band at 512 nm upon excitation at 374 nm. The pigment‐polycarbonate nanofibers showed an improved hydrophobicity with raising the pigment ratio without adverse influences on their inherent appearance and mechanical characteristics. When excited with UV light, the transparent films had rapid and reversible photochromism without fatigue. The nanofibrous mats displayed elasticity and flexibility. The present approach can be described as a competent method for the preparation of diverse anticounterfeiting materials. Photographs of transparent photochromic PC5 under daytime light.
doi_str_mv 10.1002/app.53634
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It has been fundamental to enhance the engineering procedure of the authentication materials to introduce a mechanically reliable authentication nanofibrous film. In this context, we develop a mechanically reliable and photoluminescent electrospun nanofibrous polycarbonate film immobilized with lanthanide‐doped aluminate nanoparticles (NPs) by the electrospinning method for authentication purposes. The prepared composite film displayed photochromism by changing color from transparent under daytime light to green under ultraviolet light. To guarantee the transparency of the electrospun nanofibrous film, the strontium aluminate pigment must be presented in the nano‐scaled particle form to improve its distribution without forming aggregates in the electrospun polycarbonate nanofibrous bulk. The pigment‐polycarbonate nanofibers showed an emission band at 512 nm upon excitation at 374 nm. 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source Wiley-Blackwell Read & Publish Collection
subjects Color
Electrospinning
Hydrophobicity
Materials science
Mechanical properties
Nanofibers
nanofibrous film
Nanoparticles
Photochromism
Photoluminescence
polycarbonate
Polycarbonate resins
Polymers
strontium aluminate
Ultraviolet radiation
title Dual mode stimuli‐responsive color‐tunable transparent photoluminescent anticounterfeiting polycarbonate electrospun nanofibers embedded with lanthanide‐doped aluminate
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