Reactive Extrusion as a Pretreatment in Cassava ( Manihot esculenta Crantz) and Pea ( Pisum sativum L.) Starches to Improve Spinnability Properties for Obtaining Fibers

• Published in: Molecules (Basel, Switzerland) Vol. 27; no. 18; p. 5944
• Main Authors: Tochihuitl-Vázquez, David, Ramírez-Bon, Rafael, Yáñez-Limón, José Martín, Martínez-Bustos, Fernando
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 13.09.2022; MDPI
• Subjects: Acids; Amylose; Bioactive compounds; Biocompatibility; Biomedical materials; Biopolymers; Biosensors; Cassava; cassava starch; Continuous fibers; Electrospinning; Entanglement; entanglement concentration; Extrusion; Fibers; Food; Formic acid; Hydrogen bonds; Manihot; Manihot esculenta; Morphology; pea starch; Pisum sativum; reactive extrusion; Rheological properties; Rheology; Rice; Solvents; Starch; Starches; Viscosity; entanglement concentration; cassava starch; fibers; pea starch; reactive extrusion; electrospinning
• ISSN: 1420-3049; 1420-3049
• DOI: 10.3390/molecules27185944

Starch is a biocompatible and economical biopolymer in which interest has been shown in obtaining electrospun fibers. This research reports that cassava (CEX) and pea (PEX) starches pretreated by means of reactive extrusion (REX) improved the starches rheological properties and the availability of amylose to obtain fibers. Solutions of CEX and PEX (30-36% / ) in 38% formic acid were prepared and the rheological properties and electrospinability were studied. The rheological values indicated that to obtain continuous fibers without beads, the entanglement concentration (Ce) must be 1.20 and 1.25 times the concentration of CEX and PEX, respectively. In CEX, a higher amylose content and lower viscosity were obtained than in PEX, which resulted in a greater range of concentrations (32-36% / ) to obtain continuous fibers without beads with average diameters ranging from 316 ± 65 nm to 394 ± 102 nm. In PEX, continuous fibers without beads were obtained only at 34% with an average diameter of 170 ± 49 nm. This study showed that starches (20-35% amylose) pretreated through REX exhibited electrospinning properties to obtain fibers, opening the opportunity to expand their use in food, environmental, biosensor, and biomedical applications, as vehicles for the administration of bioactive compounds.