Colloidal approach to prepare colour blends from colourants with different solubility profiles

•Curcumin–Indigocarmine co-incorporation in zein colloidal particles via anti-solvent precipitation.•Characterization of particle size, surface potential and morphology.•Generation of acid stable green colour.•Enhancement of photostability of individual pigments. Food colouring plays a vital and a d...

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Bibliographic Details
Published in:Food chemistry 2013-11, Vol.141 (2), p.1466-1471
Main Authors: Patel, A.R., Heussen, P.C.M., Dorst, E., Hazekamp, J., Velikov, K.P.
Format: Article
Language:English
Subjects:
Acid-stable green colour
Biological and medical sciences
Colloidal colours
Colloids - chemistry
Curcumin
Curcumin - chemistry
Food Coloring Agents - chemistry
Food toxicology
Indigo Carmine - chemistry
Medical sciences
Photodegradation
Protein–dye interactions
Solubility
Toxicology
Zein colloidal particles
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Summary:•Curcumin–Indigocarmine co-incorporation in zein colloidal particles via anti-solvent precipitation.•Characterization of particle size, surface potential and morphology.•Generation of acid stable green colour.•Enhancement of photostability of individual pigments. Food colouring plays a vital and a determining role in the processing and the manufacturing of food products because the appearance of products is critical for attracting consumers and influencing their food choices. However, factors such as legislative restrictions, limited number of approved colourants and the processing, formulation and stability issues of the natural colourants severely limits the application of food colouring in actual product formats. Hence, finding alternatives to the currently utilised formulation practises, represents an important area of research. Here, we report a simple colloidal approach to prepare colour blends by co-incorporating colourants with contrasting aqueous solubility profiles in composite colloidal particles. Curcumin and indigocarmine were selected as water insoluble and water soluble food-grade colourants respectively and incorporated in the colloidal particles prepared from food protein-zein. Composite particles obtained by loading of curcumin and indigocarmine (at different ratios) had mean particle size ranging from 76 to 300nm. The spherical shape of the colloidal particles was confirmed using transmission electron microscopy and the colloidal dispersions were further characterised using UV–Vis and fluorescence spectroscopy. The incorporation of colourants in colloidal particles led to the generation of different shade of colour in yellow–green–blue range. The encapsulation also led to the stabilization of individual pigments against photodegradation. Such composite colloidal particles could potentially serve as an approach for developing tuneable colouring system for food and nutraceutical applications.
ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2013.03.082