Modulating porosity and mechanical properties of pectin hydrogels by starch addition

The use of blends to produce hydrogels allows modulating their characteristics as mechanical properties and microstructure. This work aimed to study the properties of pectin and starch hydrogel blends. Pectin gel was homogeneous and porous, while pectin/starch blends containing 50% or more pectin exhibited denser and closer network, indicating that starch reduced the porosity of pectin network. Such characteristic was associated with higher gel hardness, cohesiveness, firmness, and water holding capacity. The influence of total biopolymer concentration and type of process (extrusion and atomization) on particle formation were also evaluated indicating that among the tested formulations, pectin 1% and starch 1% blend was the only sample able to form particles under extrusion and atomization. The addition of 5% (w/v) microparticles to the grape nectar presented no influence on rheological parameters, maintaining the pseudoplastic behavior. Both the starch addition and the amount of polymers used impacted the micro and macrostructure of pectin gels.

Automated summary

Blending pectin and starch hydrogels can modulate their characteristics, affecting mechanical properties and microstructure. Starch addition and the amount of polymers used impact both the micro and macrostructure of pectin gels.