Synthesis and spectral properties of new fluorescent hydrazone disperse dyes and their dyeing application on polyester fabrics
Heliyon • 2019
Publication Information
Authors
Tarek Ayshaa, Mostafa Zain, Mohamed Arief, Yehya Youssef
Keywords
Materials chemistry, Analytical chemistry, Organic chemistry, Fluorescence, Azo dye, Coumarin derivatives, Pyrrolinone, ester, Polyester dyeing.
Journal
Heliyon
Publisher
ELSEVIER
Volume
5
Issue
8
Pages
e02358
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
A new series of solid state fluorescent disperse dyes based on hybrid structure of pyrrolinone ester (PES)/
coumarin moiety was prepared and fully characterized using spectroscopic analysis such as 1HNMR, MS and IR
spectra. The coumarin derivative (7- amino-4- methyl coumarin) was initially prepared from amino phenol via
multi steps condensation reactions and its diazonium salt coupled with the pyrrolinone ester to form the
hydrazone dyes. 1HNMR data of the prepared dyes exhibited a pure hydrazone form as a mixture of E, Z isomers.
These dyes showing a significant emission in solid state as well as on the dyed fabric. The dyeing application on
polyester fabrics was investigated which showing that these dyes show high affinity to polyester fabric, and minor
change in the dye affinity by changing pH even under alkaline conditions was observed.
coumarin moiety was prepared and fully characterized using spectroscopic analysis such as 1HNMR, MS and IR
spectra. The coumarin derivative (7- amino-4- methyl coumarin) was initially prepared from amino phenol via
multi steps condensation reactions and its diazonium salt coupled with the pyrrolinone ester to form the
hydrazone dyes. 1HNMR data of the prepared dyes exhibited a pure hydrazone form as a mixture of E, Z isomers.
These dyes showing a significant emission in solid state as well as on the dyed fabric. The dyeing application on
polyester fabrics was investigated which showing that these dyes show high affinity to polyester fabric, and minor
change in the dye affinity by changing pH even under alkaline conditions was observed.
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