Starch-based
composites have become promising materials for eco-friendly
packaging applications because of their biodegradability and cost-effectiveness.
However, the inherently poor mechanical and barrier properties of
starch-based composite films hinder their market potential. Here,
nanocrystalline cellulose (NCC) was isolated from cotton cellulose
powders using sulfuric acid hydrolysis. Starch-based composite suspensions/films
reinforced with 0.1–0.5 wt % of NCC were prepared and characterized.
Surface sizing application of the reinforced composite suspensions
on cellulosic paper was subsequently studied for improving the mechanical
properties and the resistance to air permeability of cellulosic paper.
Results revealed that NCC reinforced composite suspensions showed
the characteristics of non-Newtonian fluids. The rheological behavior
of these suspensions showed strong NCC concentration dependence. NCC
addition improved the thermal stability of starch-based composite
films. In addition, both the mechanical properties and air permeability
of surface-sized paper tended to achieve an optimal state when NCC
addition was 0.3 wt %.
Organic acids have broad applications in food, pharmaceutical, and chemical industries. Currently, many metabolic engineering strategies have been used to engineer microorganisms for producing value-added chemicals from various renewable feedstocks.
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