Fatty-acid incorporation improves hydrophobicity of pea protein based films towards better oxygen/water barrier properties and fruit protecting ability

The current study was undertaken to synthesize pea protein based films containing fatty acids with various chain lengths. Films namely PFAF1, PFAF2, and PFAF3 were fabricated in the presence of pelargonic acid, margaric acid, and pentacosanoic acid, respectively. Also, negative (PF: film formulated using protein alone) and positive control (PCF: film formulated using mixture of protein and chitosan) control were prepared. Interactions occurring within films were clarified by FTIR. Moreover, morphology and thermal behavior of samples were evaluated by SEM and TGA. Variations in thickness (PF: 0.03 mm, PFAF1: 0.03 mm, PFAF2: 0.04 mm, PFAF3: 0.04 mm, PCF: 0.06 mm) and water content (PF: 28.85 %, PFAF1: 16.20 %, PFAF2: 14.51 %, PFAF3: 12.04 %, PCF: 13.83) were obvious. Superior opacity was identified in PCF, followed by PFAF3, PFAF2, PFAF1, and PF. PFAF3 together with PCF were more successful than others in reducing/protecting oxygen and water permeation. Adding fatty acid or chitosan to protein films led to the decline in tensile strength (TS) and increment in elongation at break (E). As for preservation performances, maximum limitations against shifts in weight and color of bananas during 7-day storage were provided by PFAF3. Also, except for PF, all coatings (especially PFAF3) postponed the rotting of fruits.