The visible reflectance spectrum stability and water content resistivity of natural dye coating paint film consisting chlorophyll

The visible reflectance spectrum stability and water content resistivity of natural dye coating paint film consisting chlorophyll

Purpose The purpose of this paper is to study the colour stability and water content resistivity of the green colour coating paint film (consisting of chlorophyll) during exposure to ultraviolet A (UV-A). Design/methodology/approach The natural green dye was prepared by immersing Cassia alata L. lea...

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Bibliographic Details
Published in:Pigment & resin technology Vol. 47; no. 6; pp. 470 - 477
Main Authors: Usop, R, Sulaiman, L, Mazni, N.A, Manah, N.S.A, Anuar, N, Arof, A.K, Abidin, Z.H.Z
Format: Journal Article
Language:English
Published: Bradford Emerald Publishing Limited 07-11-2018
Emerald Group Publishing Limited
Subjects:
Chlorophyll
Color
Copper
Dyes
Electrical resistivity
Ethanol
Fourier transforms
Glass substrates
Graphs
Greenhouse effect
Infrared analysis
Moisture content
Morphology
Nitrates
Paints
Polymethyl methacrylate
Protective coatings
Reflectance
Spectrum analysis
Stability analysis
Surface stability
Ultraviolet radiation
Visible spectrum
Chlorophyll
Colour stability
Natural dye
Organic coatings
Paints
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Summary:Purpose The purpose of this paper is to study the colour stability and water content resistivity of the green colour coating paint film (consisting of chlorophyll) during exposure to ultraviolet A (UV-A). Design/methodology/approach The natural green dye was prepared by immersing Cassia alata L. leaves in absolute ethanol. The extract was prepared in two batches of dye samples where one of it was a pure dye and the other was added with 3 Wt. % Cu(NO3)2 as an additive. Polymer blend as a binder was prepared by mixing poly(methyl methacrylate) (PMMA) and commercial acrylic polyol. The blended polymer was mixed with the natural dye in a specific ratio and applied as coating paint film on glass panel surfaces. The visible spectrum stability (colour stability) and water content resistivity of the coating paint films during exposure to UV-A were monitored. Findings Addition of Cu(NO3)2 had improved the colour stability of the coating paint film. Fourier transform infrared spectroscopy analysis showed that both coating paint films do not absorb water and are resistive to water content. Research limitations/implications The ability of Cu(NO3)2 as an colour stability additive to the natural green dye applied in the coating paint film. Practical implications The coating paint film developed in this work is suitable to be applied on glass substrates. Originality/value The colour stability of the coating paint film was analysed by using the reflectance spectrum.
ISSN:0369-9420
1758-6941
DOI:10.1108/PRT-11-2017-0091