Depending on the end-use, coatings

Depending on the end-use, coatings are applied onto paper to provide the desired properties such as gloss and smoothness in magazines and catalogues, printability and ink-retention in office
paper, wear resistance, and water and grease resistance in packaging
applications [7].
Coating formulations typically consist of a
pigment(s) such as calcium carbonate, clays and others to provide
the desired characteristic; a binder such as styrene butadiene,
styrene butadiene acrylonitrile, styrene acrylic and vinyl acetate
polymers to hold the pigment(s) together; and certain additives to
improve processability and handling [10,13]. Coatings contribute
about 10% of the overall cost of paper production of which, the
binder is the highest cost component in the formulation [7].
In
addition to costs, the binders that are currently being used are synthesized
from fossil fuel feedstock raising concerns towards the
sustainability of paper coatings. Furthermore, papers coated withwaxes, polyolefins and other synthetic materials are difficult to recycle or compost [3].
These challenges inherent with synthetic binders have triggered
an interest in using renewable resources for paper coating applications
[31]. Bio-polymers have found use in edible coatings for food
applications for over a century now, however, their use as coatings
and films in paper and packaging is relatively recent [3].
The basic bio-materialsusedforfilms andcoatings are broadly classified
as polysaccharides, lipids, and proteins compounds [15].
Polysaccharide compounds used as films include celluloses, starches,
hemicelluloses, chitosan and their derivatives having excellent oil
and grease resistant properties [4].
Several proteins including collagen, zein, wheat gluten, cottonseed and soybean proteins have
also been researched for films and coatings [23,1].
Water resistivity in fruits and vegetables have been controlled by edible lipids
films made from waxes, animal fats and vegetable oils due to their
non-polar nature